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INTERNATIONAL ORGANISATION FOR STANDARDISATIONORGANISATION INTERNATIONALE DE NORMALISATION
ISO/IEC JTC1/SC29/WG11CODING OF MOVING PICTURES AND AUDIO
ISO/IEC JTC1/SC29/WG11
MPEG2011/N11891March 2011, Geneva, Switzerland
Title Report of 96th meetingSource ConvenorStatus
Report of 96th meeting
Report of 96th meeting......................................................................................................................1Annex A – Attendance list.............................................................................................................16Annex B – Agenda.........................................................................................................................23Annex C – Input contributions.......................................................................................................26Annex D – Output documents........................................................................................................57Annex E – Requirements report.....................................................................................................62Annex F – Systems report..............................................................................................................67Annex G – Video report...............................................................................................................112Annex I – Audio report.................................................................................................................118Annex J – 3DG report...................................................................................................................143
1 OpeningThe 96thy MPEG meeting was held in Geneva 2011/03/21-25
2 Roll call of participantsThe attendance list is provided is Annex 1
3 Approval of agendaThe agenda in provided in Annex 2
4 Allocation of contributionsThe list of input contribution is provided in Annex 3
1
5 Communications from ConvenorThe list of output document is provided in Annex 4
6 Report of previous meetingThis was approved
7 Processing of NB Position PapersNB documents were presented, discussed and, where appropriate, responses provided
8 Work plan management
8.1 Media coding
8.1.1 MPEG Frame-Compatible Enhancement for AVCThe following documents were approved
12042 Test Conditions and Evaluation Process for MFC12043 Draft Call for Proposals on MPEG Frame-compatible Enhancement
8.1.2 3DG Core experimentsThe following document was approved
11993 Description of 3DG Core Experiments
8.1.3 OFF Additional script and language tagsThe following documents were approved
11923 Request for ISO/IEC 14496-22/AMD 2 Additional script and language tags11924 Text of ISO/IEC 14496-22 PDAM 2 Additional script and language tags
8.1.4 Contract Expression LanguageThe following documents were approved
11925 Request for subdivision of ISO/IEC 21000-20 Contract Expression Language11926 Text of ISO/IEC CD 21000-20 Contract Expression Language
8.1.5 CAL ExtensionsThe following document was approved
11983 WD3 of ISO/IEC 23001-4/Amd.1 CAL Extensions
2
8.1.6 Video Tool LibraryThe following documents were approved
11984 Disposition of Comments on ISO/IEC 23002-4/PDAM 211985 Text of ISO/IEC 23002-4/DAM 2 Functional Units for AVC Progressive High
Profile12002 Request for ISO/IEC 23002-4:2010/AMD 3 Graphics Tool Library for
Reconfigurable Multimedia Coding Framework12003 WD1.0 of ISO/IEC 23002-4:2010/AMD 3 Graphics Tool Library for Reconfigurable
Multimedia Coding Framework
8.1.7 Spatial Audio Object CodingThe following document was approved
12012 Workplan on SAOC Conformance and Reference Software
8.1.8 Unified Speech and Audio CodingThe following documents were approved
12013 Study on ISO/IEC 23003-3:201x/DIS of Unified Speech and Audio Coding12014 Thoughts on profiles for Unified Speech and Audio Coding12015 Status and Workplan for USAC CEs12016 Workplan for USAC Common Encoder Reference Software12017 Workplan for USAC Verification Test
8.1.9 High-Efficiency Video CodingThe following documents were approved
12000 High Efficiency Video Coding (HEVC) Test Model 3 (HM 3) 12001 High Efficiency Video Coding (HEVC) Working Draft 3
8.1.10 Media Context and Control – Control InformationThe following document was approved
11946 WD 5.0 of ISO/IEC 23005-2/PDAM 1 Additional Control Information and binary representation
8.1.11 Media Context and Control – Sensory InformationThe following document was approved
11947 WD 5.0 of ISO/IEC 23005-3/PDAMD 1 Binary representation
3
8.1.12 Media Context and Control – Virtual World Object CharacteristicsThe following document was approved
11948 WD 5.0 of ISO/IEC 23005-4/PDAM 1 Binary representation
8.1.13 Media Context and Control – Data Formats for Interaction DevicesThe following document was approved
11949 WD 5.0 of ISO/IEC 23005-5/PDAM 1 Additional sensors, interaction devices and binary representation
8.1.14 Media Context and Control – Common Types and ToolsThe following document was approved
11950 WD 5.0 of ISO/IEC 23005-6/PDAM 1 Binary representation
8.1.15 3D Video CodingThe following documents were approved
12035 Applications and Requirements on 3D Video Coding12036 Call for Proposals on 3D Video Coding Technology12037 Description of Exploration Experiments in 3D Video Coding
8.1.16 Future AudioThe following document was approved
12018 Audio for HEVC
8.1.17 Internet Video CodingThe following documents were approved
12044 Draft Call for Proposals (CfP) for Internet Video Coding Technologies 12045 Requirements for Internet Video Coding Technologies
8.2 Composition coding
8.2.1 Scene Description Based Collaborative ApplicationsThe following documents were approved
12046 Draft Requirements for Scene Technology for Collaborative Applications 12047 Draft Context and Objectives for Scene Technology for Collaborative Applications11916 Use Cases for Collaborative Applications11917 Technologies under Consideration for use of BIFS in Collaborative Application
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8.2.2 Advanced User InteractionThe following documents were approved
11943 Study text of ISO/IEC CD 23007-2 Advanced user interaction interface11944 Technologies under consideration for advanced user interaction interface
8.2.3 Augmented realityThe following document was approved
12048 MPEG position paper for Augmented Reality
8.3 Description coding
8.3.1 Compact Descriptors for Visual SearchThe following documents were approved
12038 Call for Proposals for Compact Descriptors for Visual Search12039 Evaluation Framework for Compact Descriptors for Visual Search (Draft)12040 Workplan for CDVS AHG
8.4 Systems support
8.4.1 MPEG-2The following document was approved
11912 List of errata items of ISO/IEC 13818-1:2007
8.5 Transport and File formats
8.5.1 Simplified carriage of MPEG-4 over MPEG-2The following documents were approved
11914 Request for ISO/IEC 13818-1:2007/AMD 8 Extensions for simplified carriage of MPEG-4 over MPEG-2
11915 Text of ISO/IEC 13818-1:2007/PDAM 8 Extensions for simplified carriage of MPEG-4 over MPEG-2
8.5.2 Signalling of stereoscopic video in MPEG-2 SystemsThe following document was approved
11913 Study text of ISO/IEC 13818-1:2007/PDAM 7 Signaling of frame compatible and service compatible stereoscopic video
5
8.5.3 Transport of Unified Speech and Audio CodingThe following documents were approved
12008 Request for ISO/IEC 14496-3:2009/Amd 312009 ISO/IEC 14496-3:2009/PDAM 3 Transport of Unified Speech and Audio Coding
8.5.4 Sub-track selection & switchingThe following documents were approved
11919 DoC on ISO/IEC 14496-12:2008/FPDAM 2 Support for sub-track selection & switching, post-decoder requirements, and color information
11920 Text of ISO/IEC 14496-12:2008/FPDAM 2.2 Support for sub-track selection & switching, post-decoder requirements, and color information
8.5.5 DASH support and RTP reception hint track processingThe following document was approved
11921 Study text of ISO/IEC 14496-12:2008/DAM 3 DASH support and RTP reception hint track processing
8.5.6 MP4 files as a playlist using file tracksThe following document was approved
11922 WD 2.0 of ISO/IEC 14496-12:2008/AMD 4 MP4 files as a playlist using file tracks
8.5.7 Dynamic Adaptive Streaming over HTTPThe following documents were approved
11930 Study text of ISO/IEC DIS 23001-6 Dynamic Adaptive Streaming over HTTP11931 WD of DASH Implementation Guidelines11951 DASH profiles under consideration12048 Request for New Project Dynamic Adaptive Streaming over HTTP
8.5.8 Common Encryption Format for ISO Base Media File FormatThe following document was approved
12024 Draft Request for subdivision
8.5.9 MPEG Media TransportThe following documents were approved
6
11953 Working Draft of MPEG Media Transport11954 Technology under Considerations on MPEG Media Transport
8.6 Multimedia architecture
8.6.1 MPEG-M ArchitectureThe following documents were approved
11933 DoC on ISO/IEC CD 23006-1 Architecture11934 Text of ISO/IEC DIS 23001-1 Architecture
8.6.2 MXM APIThe following documents were approved
11935 DoC on ISO/IEC CD 23006-2 MXM API11936 Text of ISO/IEC DIS 23006-2 MXM API
8.6.3 Elementary ServicesThe following documents were approved
11938 DoC on ISO/IEC CD 23006-4 Elementary services11939 Text of ISO/IEC DIS 23006-4 Elementary services
8.6.4 Service AggregationThe following documents were approved
11940 DoC on ISO/IEC CD 23006-5 Service aggregation11941 Text of ISO/IEC DIS 23006-5 Service aggregation
8.6.5 MPEG-M Usage GuidelinesThe following document was approved
11942 WD of ISO/IEC 23006-6 Usage guidelines on elementary and aggregated services
8.6.6 MPEG-V ArchitectureThe following document was approved
11945 WD 5.0 of ISO/IEC 23005-1/PDAM 1 Additional Use Cases
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8.7 Application formats
8.7.1 Stereoscopic Video AF composition typeThe following document was approved
11927 Study text of ISO/IEC 23000-11/DAM 2 Signalling of additional composition type and profiles
8.7.2 Interactive Music AF dynamic volume changeThe following documents were approved
11928 Request for ISO/IEC 23000-12/AMD 2 Compact representation of dynamic volume change and audio equalization
11929 Text of ISO/IEC 23000-12/PDAM 2 Compact representation of dynamic volume change and audio equalization
8.8 Reference implementation
8.8.1 Efficient representation of 3D meshes with multiple attributes Reference Software
The following document was approved
11992 Text of ISO/IEC 14496-5 PDAM 31 Reference Software for Efficient representation of 3D meshes with multiple attributes
8.8.2 Video Signature Tools Reference SoftwareThe following document was approved
11981 Text of ISO/IEC 15938-6:2003/FDAM4 Reference Software for Video Signature Tools
8.8.3 Audio-visual Description Profile Reference SoftwareThe following document was approved
N12034 AVDP Annex for AVDP DAM (AVDP reference software)
8.8.4 DASH Reference SoftwareThe following document was approved
11932 WD of Conformance and reference software for DASH
8.8.5 MPEG-M Reference SoftwareThe following document was approved
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11937 WD of ISO/IEC 23006-3 2nd Ed. Conformance and Reference Software
8.8.6 Media Context and Control – Reference SoftwareThe following document was approved
11952 Text of ISO/IEC FDIS 23005-7 Conformance and Reference Software
8.9 Conformance
8.9.1 Efficient representation of 3D meshes with multiple attributes Conformance
The following document was approved
12004 Text of ISO/IEC 14496-27 PDAM 4, Conformance for efficient representation of 3D meshes with multiple attributes
8.9.2 Video Signature Tools ConformanceThe following document was approved
11982 Text of ISO/IEC 15938-7:2003/FDAM6 Conformance for Video Signature Tools
8.9.3 DASH ConformanceThe following document was approved
11932 WD of Conformance and reference software for DASH
8.9.4 MPEG-M ConformanceThe following document was approved
11937 WD of ISO/IEC 23006-3 2nd Ed. Conformance and Reference Software
8.9.5 Media Context and Control – ConformanceThe following document was approved
11952 Text of ISO/IEC FDIS 23005-7 Conformance and Reference Software
8.10 Maintenance
8.10.1 Audio coding standardsThe following documents were approved
9
12010 DoC on ISO/IEC 23003-1:2007/AMD 2/DCOR 2.212011 ISO/IEC 23003-1:2007/AMD 2/Cor 2
9 Organisation of this meeting
9.1 Tasks for subgroupsSubgroups were given the following tasks
Requirements Std Pt Amd4 10 Scalable frame compatible stereo video for SVC/MVC
11 BIFS for collaborative environment7 3 Compact Descriptors for Visual SearchB 6 DASH ProfilesH 1 Screen content
3DVLow complexity video codecType 1 licensing codecPreservationAugmented Reality New standard areas Audio for HEVC et al.
Systems Std Pt Amd2 1 7 Signaling of Stereoscopic Video
8 Simplified carriage of MPEG-4 on 25 ? SVC FF RS
22 1 Open Font Format28 Composite Font Format
21 8 Amd1 MVCO RSA 11 2 Additional composition type
12 1 Interactive music AF RS & C2 Compact representation of dynamic volume change
B 6 1 DASHM 1 Architecture
2 MXM API3 RS & C4 Elementary Services5 Aggregated Services6 Use cases
V 1 Architecture2 Control Information3 Sensory information4 Virtual world object characteristics5 Data representation for interaction devices6 Common types and tools7 Conformance and reference software
U 1 1 Widget extensions2 Advanced user interaction interface3 Reference Software and Conformance
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MMTVideo
4 10 Stereo video4 10 Cor 1 Miscellanea7 3 ? Compact Descriptors for Visual SearchB 4 1 CAL extensionsC 4 2 Video Tool Library extensionsH HEVC
3DVideoAudio D 2 Cor1 Spatial Audio Object Coding
2 Amd1 Spatial Audio Object Coding C 2 Amd2 Spatial Audio Object Coding RS3 USAC
Audio-systems interactionNew audio issues (HEVC)
3DG 4 5 27 Scalability complexity 3DMC RS16 2 Mesh representation supporting multiple attributes
3 Multiresolution 3DMC 27 2 Scalable complexity 3DMC Conformance
3 Scalable complexity 3DMC in part 25 ConformanceReconfigurable Graphics Coding
9.2 Joint meetingsThe following joint meetings were held
Groups What Day Time1 Time2 WhereR, S DASH profiles Mon 16:00 18:00 R3, V RGC Mon 16:00 18:00 33, S MPEG-V Tue 09:00 15:00 3R, V HEVC requirements Tue 10:00 11:00 JA, S USAC Audio-Systems interaction Tue 14:00 15:00 SR, T Type 1 Tue 14:00 15:00 R3, R, S BIFS for collaboration Tue 15:00 16:00 33, S MPEG-U and MPEG-V Tue 16:00 18:00 33, R, S Augmented reality Wed 11:30 13:00 183, S MPEG-V Wed 14:00 15:00 33, V RGC Wed 15:00 16:00 3All MMT Wed 16:00 17:30 RR, S DASH profiles Wed 17:30 18:00 RV, R MPEG frame compatible stereo Thu 09:00 10:00 RA, R Audio exploration Thu 10:00 11:00 AAll SVN structure Thu 11:00 12:00 16V, R CDVS Thu 12:00 13:00 RR, S Video surveillance Thu 14:00 15:00 S
11
10 WG management
10.1 Terms of referenceThe following document was approved
11900 Terms of reference
10.2 Liaisons
10.2.1 Liaison statementssThe following liaison statements were approved
12049 Liaison Statement to WG 1 on Visual Search12051 Response to the liaison from COST IC1003 (QUALINET)11972 Liaison statement to 3GPP on Dynamic Adapative Streaming over HTTP11973 Liaison statement template on DASH Profiles under consideration11974 Liaison statement template on Multimedia Service Platform Technology11976 Liaison statement to SC 6 on MPEG Media Transport11977 Liaison statement to ISO/TC 223 on Video surveillance 11978 Liaison statement to IEC TC 100 on RII 11980 Liaison statement to W3C on DASH11986 Liaison Statement to ITU-T SG9 (3D Video Quality Assessment and Scalable View-
range Representation)12019 Response to m19533, TC100/TA612020 Response to m19534, TC10012021 Response to m19538, TC100/TA4
10.2.2 New liaisonsThe following document was approved
12050 Statement of benefits from establishing a Category C liaison with Qualinet
10.2.3 List of active liaisonsThe following document was approved
11911 List of Organisations with which MPEG entertains liaisons
10.3 Responses to National BodiesThe following document was approved
12025 Response to US NB
10.4 Ad hoc groupsThe following ad hoc groups were established
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# Title12052 AHG on 3D Video Coding12005 AHG on 3DG documents, software maintenance and core experiments11965 AHG on Application Format12026 AHG on Audio Visual Description Profile12032 AHG on Compact Descriptors for Visual Search11897 AHG on Contract Expression Language11898 AHG on Dynamic Adaptive Streaming over HTTP11975 AHG on Font Format Representation12007 AHG on Graphics Tool Library12030 AHG on Internet Video Coding Technologies12033 AHG on Low Complexity Video Coding11918 AHG on MPEG File Formats12031 AHG on MPEG Frame Compatible (MFC) Stereo Coding11990 AHG on MPEG Media Transport11989 AHG on MPEG-7 Visual12029 AHG on MPEG-H Vision11979 AHG on MPEG-M11896 AHG on MPEG-V 12027 AHG on Multimedia Preservation12006 AHG on Multi-Resolution 3D mesh Coding11988 AHG on Reconfigurable Video Coding12028 AHG on Study of HEVC Extension11991 AHG on Systems’ vision on new MPEG standard12023 AHG on USAC
10.5 Asset managementThe following documents were approved
11905 Schema assets11906 Software assets11907 Conformance assets11908 Content assets11909 URI assets
10.6 IPR managementThe following document was approved
11910 Standards under development for which a call for patent statements is issued
10.7 Work plan and time lineThe following documents were approved
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11901 MPEG Standards11902 Table of unpublished FDISs11903 Work plan and time line
11 Administrative matters
11.1 Schedule of future MPEG meetingsThe following meeting schedule was approved
# City Country yy mm dd-dd96 Geneva CH 11 03 21-2597 Torino IT 11 07 18-2298 Geneva CH 11 11-12 28-0299 San Jose US 12 02 06-10
100 Geneva CH 12 04-05 30-04101 Stockholm SE 12 07 16-20102 Suzhou CN 12 10 15-19103 Geneva CH 13 01 21-25104 Incheon KR 13 04 22-26105 ? ? 13 07 ??-??106 Geneva CH 13 10-11 28-01
11.2 Promotional activities
11.2.1 Promotional documentsThe following documents were approved
12041 Introduction to MPEG Compact Descriptors for Visual Search12053 Short description of the Audio Visual Description Profile11955 List of Youtube video demonstrating MPEG technologies11956 Short descriptions11957 1-pager on Composite Font11958 1-pager on BIFS for digital radio11959 1-pager on Presentation and Modification of Structured Information11960 1-pager on Scene adaptation11961 1-pager on Contract Expression Language11962 1-pager on Media Value Chain Ontology11963 1-pager on Digital Item Presentation11964 1-pager on Dynamic Adaptive Streaming over HTTP11965 1-pager on MVC File Format11966 1-pager on Sub-track selection & switching11967 1-pager on Advanced User Interaction Interface11968 1-pager on MPEG-M Architecture11987 1-pager on MXM APIs11969 1-pager on Elementary Services11970 1-pager on Service Aggregation
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11971 1-pager on Open Access AF12022 Unified Speech and Audio Coder Common Encoder Reference Software11994 Overview of MPEG-V Part 1 Architecture11995 Overview of MPEG-V Part 2 Control information11996 Overview of MPEG-V Part 4 Virtual world object characteristics11997 Overview of MPEG-V Part 5 Data formats for interaction devices11998 Overview of MPEG-V Part 6 Common types and tools11999 Overview of MPEG-V Part 7 Conformance and reference software
11.2.2 Press releaseThe following document was approved
11893 Geneva press release
12 Resolutions of this meetingThese were approved
13 A.O.B.There was no other business
14 ClosingThe meeting closed at 2011/03/25T19:55
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Annex A – Attendance list
givenname familyname Affiliatiom Country
Kouadio Adi EBU - European Broadcasting UnionSwitzerland
Minsu Ahn Samsung Electronics KoreaFujibayashi Akira NTT DOCOMO,Inc. JapanDaniele Alfonso STMicroelectronics ItalyWalter Allasia EURIX ItalyPing An Shanghai University ChinaShuichi Aoki NHK JapanKohtaro Asai Mitsubishi Electric Corporation JapanCheung Auyeung Sony Electronics Inc USAGun Bang ETRI KoreaJoeri Barbarien IBBT - VUB/ETRO BelgiumVittorio Baroncini Fondazione Ugo Bordoni ItalyGero Bäse Siemens GermanyAli Begen Cisco CanadaAbdellatif Benjelloun Touimi Huawei Technologies Co., Ltd. USABruno Bessette VoiceAge CanadaLazar Bivolarsky Skype Technologies SA USA
Miroslaw BoberMitsubishi Electric R&D Center Europe USA
Ronan Boitard INRIA RENNES FrancePhilippe Bordes Technicolor France
Fons Bruls PhilipsNetherlands
Madhukar Budagavi Texas Instruments Inc. USAPablo Carballeira Universidad Politecnica de Madrid SpainJihun Cha ETRI KoreaMary-Luc Champel Technicolor France
Ti Eu Chan Institute For Infocomm ResearchSingapore
Vijay Chandrasekhar Stanford University USAWo Chang NIST USAGuangliang Chen ZTE CORPORATION ChinaWeizhong Chen Huawei technologies CO.,LTD ChinaChun-Fu Chen NCKU/ITRI USAYing Chen Qualcomm USAWon-Sik Cheong ETRI KoreaLeonardo Chiariglione CEDEO ItalyToru Chinen Sony Corporation JapanYongju Cho ETRI KoreaMiran Choi ETRI KoreaKiho Choi Hanyang University KoreaBum Suk Choi ETRI KoreaKyoungho Choi Mokpo National University KoreaByeong-Doo Choi Samsung Electronics KoreaKeiichi Chono NEC JapanTakeshi Chujoh Toshiba Corporation JapanSungmoon Chun Planning KoreaGordon Clare orange labs france telecom FranceRobert Cohen Mitsubishi Electric USACyril Concolato Telecom ParisTech FranceGiovanni Cordara Telecom Italia Italy
16
Jingjing Dai HKUST ChinaThomas Davies Cisco Systems USAJan De Cock Ghent University - IBBT BelgiumChristophe Dehais FittingBox FranceJaime Delgado DMAG - UPC SpainWenpeng Ding Beijing University Of Technology ChinaMarek Domanski Poznan University of Technology PolandVirginie Drugeon Panasonic R&D Center Germany GermanyLingyu Duan Peking University ChinaJean-Claude Dufourd Telecom ParisTech France
Touradj Ebrahimi EPFLSwitzerland
Erhan Ekmekcioglu University of Surrey USAEyal Farkash NDS IsraelFelix Fernandes Samsung USAGerard Fernando ZTE Corporation USAChad Fogg Harmonic Inc. USAGianluca Francini Telecom Italia ItalyPer Fröjdh Ericsson AB SwedenDeliang Fu Zhejiang University ChinaShigeru Fukushima JVC KENWOOD Holdings, Inc. JapanFrancesco Gallo EURIX ItalyLudovico Gardenghi Institut Télécom, Télécom SudParis FranceEric Gautier TECHNICOLOR FranceAlexander Giladi Avail-TVN USAVittorio Giovara Sisvel Spa Italy
Lutz Goldmann EPFL/STI/IEL/GR-EBSwitzerland
Philippe Gournay VoiceAge Corporation CanadaMichael Grafl Klagenfurt University AustriaMarco Grangetto Politecnico di Torino ItalyJohn Grant Nine Tiles Networks Ltd USABernhard Grill Fraunhofer IIC GermanyMarc Guez Vucher SCPP/IFPI FranceChristine Guillemot IRISA FranceLaurent Guillo INRIA FranceJae Joon Han Samsung Electronics AIT KoreaSeungju Han Samsung Electronics KoreaMiska Hannuksela Nokia FinlandMunsi Haque Sony Electronics Inc. USARyoji Hashimoto Renesas Electronics Corporation JapanShinobu Hattori Sony Corp JapanSimon Hawe TU München GermanyYun He MIIT of P.R. China ChinaJuergen Herre Fraunhofer Institut IIS GermanyMitsuhiro Hirabayashi SONY Corporation JapanDzung Hoang Zenverge, Inc. USAIngo Hofmann Fraunhofer Institut IIS GermanySung-Wook Hong Sejong University KoreaSoongi Hong Yonsei University KoreaHotaek Hong LG Electronics KoreaYingjie Hong ZTE Corporation ChinaGary Hughes Motorola Mobility USAKilroy Hughes Microsoft Corporation USASung oh Hwang Samsung Electronics KoreaAtsuro Ichigaya NHK Japan
17
Kota Iwamoto NEC JapanMarc Jacobs IBBT - VUB/ETRO BelgiumFabian Jaeger RWTH Aachen University GermanyEuee S. Jang Hanyang University KoreaJong Hyun Jang ETRI KoreaByeongmoon Jeon LG Electronics KoreaByeungwoo Jeon Sungkyunkwan University KoreaDong-Seok Jeong INHA UNIVERSITY KoreaJong Hoon Jeong Samsung Electronics KoreaSeo Jeongil ETRI KoreaSong Jeongook Yonsei Univ. KoreaAli Jerbi Cisco CanadaSanghyun Joo ETRI KoreaBojan Joveski Institut Telecom, Telecom SudParis FranceTae-Young Jung Chips & Media KoreaItaru Kaneko Tokyo Polytechnic University JapanJung Won Kang ETRI KoreaKyeongok Kang ETRI KoreaMukta Kar Cable Television Laboratories USAKei Kawamura KDDI Corp. JapanKimihiko Kazui FUJITSU LABORATORIES LTD. JapanChristian Keimel Technische Universität Mnchen GermanyJoachim Keinert Fraunhofer IIS GermanyThomas Kernen Cisco Systems USASylvain Kervadec Orange Labs FranceKei Kikuiri NTT DOCOMO, INC. JapanSang-Kyun Kim Myongji University KoreaChang-Yul Kim Feelingk KoreaGun Woo Kim Kyung Hee Univercity KoreaKyung Ho Kim LG Electronics KoreaYong Han Kim University of Seoul KoreaKyuheon Kim Kyung Hee University KoreaHae Kwang Kim Sejong University KoreaJunoh Kim Kyung Hee Univercity KoreaSeongwan Kim Yonsei University Korea
Kyung Won KimKorea Electronics Technology Institute Korea
Kristofer Kjörling Dolby Sweden AB SwedenMasaaki Kobayashi Canon Inc. JapanTomoya Kodama Toshiba Corporation JapanTakuyo Kogure Panasonic Corporation JapanKenji Kondo Sony corporation JapanJumpei Koyama FUJITSU LABORATORIES LTD. JapanFerenc Kraemer Dolby Germany GmbH GermanyPanos Kudumakis Queen Mary University of London USAJae Keun Kwak Korea Electronics Association KoreaWon Kwanghyun SungKyunKwan University KoreaSangyoun Lee Yonsei university KoreaJongwon Lee Samsung Electronics KoreaTaejin Lee ETRI KoreaJaejoon Lee Samsung Electronics KoreaSeung Wook Lee ETRI KoreaNamsuk Lee Samsung Electronics Co. KoreaJaeho Lee Yonsei university KoreaJu Ock Lee Sejong University KoreaJun-Woo Lee INHA University Korea
18
Jin Lee ETRI KoreaGwo Giun (chris) Lee National Cheng Kung Univ. USAEun Seo Lee ETRI KoreaChulhee Lee KCC KoreaRoch Lefebvre Universite de Sherbrooke CanadaAthanasios Leontaris Dolby Laboratories, Inc. USAVladimir Levantovsky Monotype Imaging Inc. USAZhu Li Huawei Technology USA USAMing Li ZTE Corporation ChinaCui Li Hanyang university KoreaSeong Yong Lim ETRI KoreaYoungkwon Lim net&tv Inc. Korea
Chong Soon Lim Panasonic Singapore LaboratoriesSingapore
Yu Liu ASTRI ChinaPatrick Lopez Technicolor FranceZhe Lou Alcatel-Lucent BelgiumAjay Luthra Motorola Mobility USASiwei Ma Peking University ChinaKhaled Mammou FittingBox FranceIain James Marshall Prologue FranceGaëlle Martin-Cocher Research in Motion CanadaIkeda Masaru Sony Corporation JapanShohei Matsuo NTT Corporation Japan
Marco MattavelliSwitzerland
Ken Mccann ZetaCast / Samsung USAPhilipp Merkle Fraunhofer HHI GermanyAlberto Messina RAI ItalyAkira Minezawa Mitsubishi Electric Corporation JapanKoohyar Minoo Motorola Mobility Inc. USAMihai Mitrea Institut Télécom ; Télécom SudParis FranceFrancisco Morán Burgos Universidad Politécnica de Madrid SpainTakehiro Moriya NTT JapanAlessandra Mosca CSP ItalyKarsten Müller Fraunhofer HHI GermanyMarkus Multrus Fraunhofer IIS GermanyTomokazu Murakami Hitachi, Ltd. JapanTokumichi Murakami Mitsubishi Electric Corporation JapanSang-Il Na ETRI KoreaTakayuki Nakachi NTT JapanSam Narasimhan Motorola Mobility USAPanos Nasiopoulos University of British Columbia CanadaPatrick Ndjiki-Nya Fraunhofer Heinrich-Hertz-Institut GermanyMax Neuendorf Fraunhofer IIS GermanyJean Francois Nezan INSA of Rennes FranceNhut Nguyen Samsung Electronics USATakahiro Nishi Panasonic JapanMasayuki Nishiguchi Sony Corporation JapanTakeshi Norimatsu Panasonic Corporation JapanAndrey Norkin Ericsson SwedenWeon Geun Oh ETRI KoreaEunbin Oh Korean Standards Association KoreaJens-Rainer Ohm RWTH Aachen University GermanyWerner Oomen Philips Research Netherla
19
ndsJoern Ostermann Leibniz University Hannover GermanyPeshala Pahalawatta Dolby Laboratories Inc USAGregory Pallone France Telecom FranceDong-Jin Park Chips&Media,Inc. KoreaKyungmo Park Samsung Electronics Co., Ltd. Korea
Stavros PaschalakisMitsubishi Electric R&D Centre Europe BV USA
Danilo Pau STMicroelectronics Srl ItalyAnand Paul Hanyang University KoreaWen-Hsiao Peng ITRI International/NCTU USADavid Pope Aptina Imaging USAMahsa Pourazad University of Toronto CanadaMarius Preda Institut TELECOM FranceFrancoise Preteux MINES ParisTech FranceHyeoncheol Pu Samsung Electronics KoreaHeiko Purnhagen Dolby Sweden AB SwedenSchuyler Quackenbush Audio Research Labs USAMohamad Raad RaadTech Consulting AustraliaJohn Ralston Droplet Technology, Inc. USAClifford Reader ChinaYuriy Reznik Qualcomm Inc. USASungryeul Rhyu Samsung Electronics Co. Ltd KoreaJean-Francois Ridel Sensio CanadaJustin Ridge Nokia FinlandJulien Robilliard Fraunhofer IIS GermanyArturo Rodriguez Cisco Systems USAVictor Rodriguez-Doncel Universitat Politècnica de Catalunya SpainDmytro Rusanovskyy Nokia FinlandThomas Rusert Ericsson AB SwedenShinichi Sakaida NHK Japan
YagoSánchez de la fuente Germany Germany
AritzSánchez De La Fuente Technische Universitaet Berlin Germany
Hisao Sasai Panasonic JapanKazushi Sato Sony Corp. Japan
Ankur SaxenaSamsung Telecommunications America USA
Thomas Schierl Fraunhofer HHI GermanyEthan Schur TDVision Systems Inc USA
Istvan Sebestyen Ecma InternationalSwitzerland
Shun-Ichi Sekiguchi Mitsubishi Electric Corporation JapanChanwon Seo Sejong University KoreaJeong-Hoon Seo Feelingk KoreaBae Seong-Jun ETRI KoreaSuman Sharma Intel Corporation USAQiu Shen Huawei Technologies Co., Ltd ChinaYouji Shibahara Panasonic Corporation JapanMasato Shima Canon Inc. JapanShinya Shimizu NTT Corporation JapanAvraham Shimor SanDisk Corporation / SII Israel
Thomas SikoraTU Berlin, FG Nachrichtenübertragung Germany
Donggyu Sim Kwangwoon University KoreaDavid Singer Apple Inc. USA
20
Rickard Sjoberg Ericsson Sweden
Aljosa Smolic Disney Research ZurichSwitzerland
Iraj Sodagar Microsoft USAEunyong Son LG Electronics Koreajae yeon Song Samsung Electronics KoreaJacek Stachurski Texas Instruments USA
Nikolce Stefanoski Disney Research, ZurichSwitzerland
Thomas Stockhammer Qualcomm Incorporated GermanyKazuo Sugimoto Mitsubishi Electric Corporation JapanToshiyasu Sugio Panasonic Corporation JapanGary Sullivan Microsoft Corp. USAHuifang Sun Mitsibishi Electric Research Labs USAJaewon Sung LG Electronics KoreaYoshinori Suzuki NTT DOCOMO, Inc. JapanTeruhiko Suzuki Sony Corp. JapanJonas Svedberg Ericsson AB SwedenVivienne Sze Texas Instruments USAAli Tabatabai Sony Electornics Inc. USALim Taehee Hanyang University KoreaSeishi Takamura NTT Cyber Space Laboratories Japan
Joop TalstraPhilips Intellectual Property & Standards
Netherlands
Wa James TamCommunicatioins Research Centre Canada Canada
Thiow Keng Tan NTT DOCOMO, Inc JapanMasayuki Tanimoto Nagoya University JapanGerhard Tech Fraunhofer Heinrich Hertz Institute GermanyShi Teng huawei ChinaLeonid Terentiev Fraunhofer Institut IIS GermanyAndrew Tescher Microsoft Corporation USAHerbert Thoma Fraunhofer IIS Germany
Yvonne Thomas European Broadcasting UnionSwitzerland
Dong TianMitsubishi Electric Research Laboratories USA
Huang Tiejun Peking University ChinaChristian Timmerer Alpen-Adria Universität Klagenfurt AustriaYasuaki Tokumo Sharp Corporation JapanIkai Tomohiro Sharp Corporation JapanPankaj Topiwala FastVDO LLC USA
Alexandros TourapisDolby Laboratories / Magnum Semiconductor USA
Cong Thang Truong ETRI KoreaChristian Tulvan Institut Telecom FranceTadashi Uchiumi Sharp corporation JapanMotoharu Ueda JVC KENWOOD Holdings, Inc. JapanStéphane Valente ST Ericsson France
Glenn Van WallendaelGhent University - IBBT - Multimedia Lab Belgium
Sanjeev Verma Samsung Electronics USAAnthony Vetro Mitsubishi Electric USADavid Virette Huawei Technologies Co., Ltd. Germany
Viktor Wahadaniah Panasonic CorporationSingapore
Husak Walt US/SMPTE USA
21
Wade Wan Broadcom Corporation USALu Wang ASTRI ChinaXin Wang Huawei Technologies, USA USAYe-Kui Wang Huawei Technologies USADong Wang ZTE Corporation ChinaShuichi Watanabe Sharp Corporation JapanKrzysztof Wegner Poznan University of Technology PolandXing Wen HKUST ChinaThomas Wiegand Fraunhofer HHI GermanyMathias Wien RWTH Aachen University GermanyMenno Wildeboer Nagoya University Japan
Michael WinkelmannFraunhofer HHI - Heinrich Hertz Institute Germany
Matthieu Wipliez IETR/INSA FranceJing Wu Cisco system ChinaOliver Wuebbolt Technicolor GermanyJi Xiangyang Tsinghua University ChinaWei Xiao Huawei Technologies Co., Ltd. ChinaTomoo Yamakage Toshiba Corporation JapanTomoyuki Yamamoto SHARP Corporation JapanMingyuan Yang Huawei Technologies CO., LTD ChinaYanzi Yang ZTE Corporation ChinaSehoon Yea LG Electronics Korea
Chuohao Yeo Institute for Infocomm ResearchSingapore
Sunmi Yoo Kwangwoon University KoreaKyoungro Yoon Konkuk University KoreaTomonobu Yoshino KDDI JapanJunyong You NUST NorwayLu Yu Zhejiang University ChinaPeiyu Yue Huawei Technologies ChinaKugjin Yun ETRI KoreaYongbing Zhang Tsinghua University ChinaRenzhou Zhang Huawei ChinaLi Zhang Peking University ChinaXin Zhao Peking University ChinaZhijie Zhao Leibniz Universitaet Hannover Germany
Haishan Zhong Panasonic Singapore LaboratoriesSingapore
Xiaosong Zhou Apple Inc. USAMinhua Zhou Texas Instruments Inc USA
Yongwei Zhu Institute for Infocomm ResearchSingapore
Waqar Zia LG Electronics Germany
22
Annex B – Agenda
# Item1 Opening 2 Roll call of participants 3 Approval of agenda 4 Allocation of contributions5 Communications from Convenor6 Report of previous meeting7 Processing of NB Position Papers8 Work plan management 1 Media coding 1 Frame Packing Arrangement Signalling in MPEG-2 Video 2 Progressive High Profile 3 MPEG Frame-Compatible Enhancement for AVC 4 AFX 3rd edition 5 Multiresolution profile 6 Scalable-complexity 3D mesh compression 7 Efficient representation of 3D meshes with multiple attributes 8 Many-to-one range mappings in Open Font Format 9 Composite Font in Open Font Format 10 Contract Expression Language 11 Codec Configuration Representation 12 Video Tool Library 13 Spatial Audio Object Coding 14 Unified Speech and Audio Coding 15 High-Efficiency Video Coding 16 Media Context and Control – Control Information 17 Media Context and Control – Sensory Information 18 Media Context and Control – Virtual World Object Characteristics 19 Media Context and Control – Data Formats for Interaction Devices 20 Media Context and Control – Common Types and Tools 21 3D Video Coding 22 Reconfigurable Graphics Coding 23 Low-complexity video coding 24 Future Audio 25 Option-1 Licensable Video Coding 2 Composition coding 1 Scene Description Based Collaborative Applications 2 Advanced User Interaction 3 Description coding 1 Video Signature Descriptors 2 Extraction and Matching of Video Signature Tools 3 Audio-visual description profile 4 MPQF semantic enhancement 5 Compact Descriptors for Visual Search
23
4 Systems support 5 IPMP 1 Protection of Presentation Element 6 Digital Item 1 Presentation of Digital Item 7 Transport and File formats 1 Carriage of JPEG 2000 in MPEG-2 Systems 2 MVC operation point descriptor 3 Signalling of stereoscopic video in MPEG-2 Systems 4 SAOC transport 5 Sub-track selection & switching 6 DASH support and RTP reception hint track processing 7 Dynamic Adaptive Streaming over HTTP 8 MPEG Media Transport 8 Multimedia architecture 1 SC3DMC for 3DGCM 2 Architecture and Technologies 3 MXM API 4 Elementary Services 5 Service Aggregation 6 Widget Extensions 9 Application formats 1 Stereoscopic Video AF composition type 2 Interactive Music AF dynamic volume change 10 Reference implementation 1 SC3DMC Reference Software 2 Scalable Complexity 3D Mesh Coding in 3DG Compression Model Reference Software 3 Video Signature Tools Reference Software 4 Stereoscopic video AF Reference Software 5 Interactive Music AF Reference Software 6 DASH Reference Software 7 Video Tool Library Reference Software 8 MXM and AIT Reference Software 9 MPEG Rich Media UI Reference Software 10 Media Context and Control – Reference Software 11 Conformance 1 MPEG-4 Audio Conformance 2 BIFS ExtendedCore2D Profile Conformance 3 3DG Conformance 4 Scalable Complexity 3DMC Conformance 5 3D Graphics Compression Model Conformance 6 Video Signature Tools Conformance 7 Stereoscopic video AF Conformance 8 Interactive Music AF Conformance 9 Video Tool Library Conformance 10 MXM and AIT Conformance
24
11 MPEG Rich Media UI Conformance 12 Media Context and Control – Conformance
12 Maintenance 1 Systems coding standards 2 Video coding standards 3 Audio coding standards 4 3DG coding standards 5 Systems description coding standards 6 Visual description coding standards 7 Audio description coding standards 8 MPEG-21 standards 9 MPEG-A standards9 Organisation of this meeting 1 Tasks for subgroups 2 Joint meetings10 WG management 1 Terms of reference 2 Officers 3 Editors 4 Liaisons 5 Responses to National Bodies 6 Work item assignment 7 Ad hoc groups 8 Asset management 1 Reference software 2 Conformance 3 Test material 4 URI 9 IPR management 10 Work plan and time line11 Administrative matters 1 Schedule of future MPEG meetings 2 Promotional activities12 Resolutions of this meeting13 A.O.B.14 Closing
25
Annex C – Input contributions
# Source Title19511 Marco Mattavelli, Mickael Raulet Ad Hoc on Reconfigurable Video Coding 19512 Miroslaw Bober, Stavros Paschalakis Ad Hoc on MPEG-7 Visual
19513 Walt Husak, Vittorio Baroncini, Anthony Vetro Ad Hoc on MPEG Frame Compatible (MFC) Stereo Coding
19514 Gaelle Martin-Cocher, John Ralston Ad Hoc on Low Complexity Video Coding
19515 Karsten Müller, Anthony Vetro, Vittorio Baroncini Ad Hoc on 3D Video Coding
19516 Yuriy Reznik, Giovanni Cordara, Miroslaw Bober Ad Hoc on Compact Descriptors for Visual Search19517 Jörn Ostermann Ad Hoc on Type-1 Video Coding19518 Masanori Sano, Jean-Pierre Evain Ad Hoc on Audio Visual Description Profile
19519 Francisco Morán Burgos, Seung Wook Lee Ad Hoc on 3DG documents, software maintenance and core experiments
19520 Khaled Mamou, Minsu Ahn Ad Hoc on Multi-Resolution 3D mesh Coding19521 S. Quackenbush Ad Hoc on USAC
19522 Jaeyeon Song, Cyril Concolato, Jean-Claude Dufourd Ad Hoc on Scene Representation
19523 David Singer, Per Fröjdh Ad Hoc on MPEG File Formats19524 Kyuheon Kim, Kugjin Yun Ad Hoc on Application Format19525 Vladimir Levantovsky Ad Hoc on Font Format Representation19526 Xin Wang, Young Kwon Lim Ad Hoc on MPEG-M19527 Marius Preda Ad Hoc on MPEG-V 19528 Xin Wang, Jaime Delgado Ad Hoc on Contract Expression Language
19529 Iraj Sodagar, David Singer, Youngkwon Lim Ad Hoc on Dynamic Adaptive Streaming over HTTP
19530 Youngkwon Lim, Christian Timmerer Ad Hoc on MPEG Media Transport
19531 ITTF via SC 29 Secretariat Table of Replies on ISO/IEC 15938-12:2008/FDAM 1
19532 SC 29 SecretariatSummary of Voting on ISO/IEC 14496-12:2008/FPDAM 2 and ISO/IEC 15444-12:2008/FPDAM 2
19533 IEC TC 100 via SC 29 Secretariat IEC NP: Audio Archive System -- Part 1: Physical format -- Part 2: Audio archive system
19534 IEC TC 100 via SC 29 Secretariat IEC NP: Text-to-Speech Functionality for Television - General requirements
19535 ISO/TC 223 via SC 29 Secretariat ISO/TC 223's 2nd CD: ISO CD 22311.219536 SC 29 Secretariat Summary of Voting on ISO/IEC FCD 23005-719537 Sanjeev Verma, Bogyeong Kang File Format-Support for Key Rotation19538 IEC TC 100 via SC 29 Secretariat IEC CDV 61937-2/Amd.1
19539 WG 1 via SC 29 Secretariat Liaison Statement from WG 1 on Visual Search [SC 29 N 11919]
19540 ITTF via SC 29 Secretariat Table of Replies on ISO/IEC FDIS 23005-1
19541 SC 29 Secretariat Summary of Voting on ISO/IEC 15938-6:2003/FPDAM 4
19542 SC 29 Secretariat Summary of Voting on ISO/IEC
26
15938-7:2003/FPDAM 6
19543 R. Cohen, C. Yeo, R. Joshi, F. Fernandes CE7: Summary report of core experiment on alternative transforms
19544 Seong-Jun Bae, Jin Young Lee, Jung Won Kang, Soon-heung Jung, Sang Taick Park Functionalities for MMT Layers
19545 Philippe Bordes (Technicolor) Weighted Prediction19546 Daniele Alfonso, Justin Ridge, Xing Wen JCT-VC AHG report: Complexity assessment
19547 Y.-W. Huang (MediaTek), I.-K. Kim (Samsung) CE4: Summary report of core experiment on slice boundary processing and fine granularity
19548 Y.-W. Huang (MediaTek) CE13: Summary report of core experiment on sample adaptive offset
19549 S. Lei (MediaTek), M. Karczewicz (Qualcomm) CE14: Summary report of core experiment on intra mode coding
19550 C.-W. Hsu, Y.-W. Huang, S. Lei (MediaTek) Unified End-Of-Slice Detection for LCEC and CABAC
19551 C.-W. Hsu, C.-Y. Tsai, Y.-W. Huang, S. Lei (MediaTek) CE4 Subset1: Leaf-CU-Aligned Slices
19552 C.-W. Hsu, C.-Y. Tsai, Y.-W. Huang, S. Lei (MediaTek) CE4 Subset2: Slice Boundary Filter
19553 C.-Y. Tsai, C.-W. Hsu, Y.-W. Huang, S. Lei (MediaTek) CE4 Subset3: Slice Common Information Sharing
19554 C.-Y. Chen, C.-M. Fu, C.-Y. Tsai, Y.-W. Huang, S. Lei (MediaTek)
CE8 Subtest 2: Adaptation between Pixel-based and Region-based Filter Selection
19555
C.-Y. Chen, C.-M. Fu, C.-Y. Tsai, Y.-W Huang, S. Lei (MediaTek), M. Karczewicz, I. S. Chong (Qualcomm), T. Yamakage, T. Chujoh, T. Watanabe (Toshiba)
CE8 Subtest 3: Adaptation between ALF and AO
19556 J.-L. Lin, Y.-W. Chen, Y.-P. Tsai, Y.-W. Huang, S. Lei (MediaTek) CE9: Results of Experiments M-Series
19557 C.-M. Fu, C.-Y. Chen, C.-Y. Tsai, Y.-W. Huang, S. Lei (MediaTek)
CE13: Sample Adaptive Offset with LCU-Independent Decoding
19558 J.-L. Lin, C.-L. Wu, Y.-W. Chen, Y.-P. Tsai, Y.-W. Huang, S. Lei (MediaTek)
Parsing Robustness: Constrained Usage of Temporal MV and MVP Candidates
19559 T.-D. Chuang, C.-Y. Chen, Y.-L. Chang, Y.-W. Huang, S. Lei (MediaTek) Quantization: Sub-LCU Delta QP
19560 T.-D. Chuang, J.-L. Lin, Y.-W. Huang, S. Lei (MediaTek)
Removal of Duplicated Combinations of Reference Picture Indices for Forward Bi-Prediction
19561 C.-W. Hsu, J.-L. Lin, Y.-W. Huang, S. Lei (MediaTek)
Unified Syntax of Reference Picture List Reordering
19562 Daniele Alfonso, Andrea C. Ornstein (STMicro) Preliminary complexity assessment on ARM
19563 Sven Klomp, Jörn Ostermann Evaluation of decoder-side motion estimation within HM 2.0
19564 Kazushi Sato, Hironari Sakurai(Sony) Necessity of Quantization Matrices Compression in HEVC
19565 Keiichi Chono, Hirofumi Aoki, Yuzo Senda (NEC) Pulse code modulation mode for HEVC
19566 Kazushi Sato(Sony) CE9: Cross-check Result of Test I&J&S
19567 S. Park, J. Park, B. Jeon (LGE) Modifications of temporal mv compression and temporal mv predictor
19568 V. Sze (TI), K. Panusopone (Motorola Mobility), J. Chen (Samsung), T. Nguyen (Fraunhofer
CE11: Summary report of core experiment on coefficient scanning and coding
27
HHI), M. Coban (Qualcomm)
19569 M. Budagavi, V. Sze, M. Zhou (TI) CE8 Subtest 5: Luma ALF with reduced vertical filter size
19570 Akio Ando 22.2 multichannel sound material for testing 3D audio coder
19571 K.Kazui, J.Koyama, S.Shimada, A.Nakagawa (Fujitsu) Requirements of very low delay applications
19572 K.Kazui, S.Shimada, J.Koyama, A.Nakagawa (Fujitsu)
Improvement on simplified motion vector prediction
19573 K.Kazui (Fujitsu) CE4 Subset3: Cross-verification of MediaTek's slice common information sharing by Fujitsu
19574 Yusuke Itani, Shun-ichi Sekiguchi, Kohtaro Asai, Tokumichi Murakami (Mitsubishi Electric) Improvement to AMVP/Merge process
19575 Shun-ichi Sekiguchi, Kazuo Sugimoto (Mitsubishi Electric)
CE8 subtest4: Cross-verification on Low Complexity ALF design
19576 Kazuo Sugimoto, Akira Minezawa, Shun-ichi Sekiguchi (Mitsubishi Electric)
Cross-verification report on PCM mode(JCTVC-E057)
19577 Kazuo Sugimoto, Akira Minezawa, Shun-ichi Sekiguchi (Mitsubishi Electric)
CE6.b1: Cross-verification report on Short Distance Intra Prediction (JCTVC-E278)
19578 Kazuo Sugimoto, Akira Minezawa, Shun-ichi Sekiguchi (Mitsubishi Electric)
CE6.g: verification report on number of intra prediction directions
19579Kazuo Sugimoto, Akira Minezawa, Shun-ichi Sekiguchi (Mitsubishi Electric), Kazuhisa Iguchi, Yoshiaki Shishikui (NHK)
CE6.f: LUT-based adaptive filtering on intra prediction samples
19580 Ikeda Masaru, Suzuki Teruhiko (Sony) CE12 Subset2: Cross-verification of Panasonic's proposal JCTVC-E224
19581 Ikeda Masaru, Suzuki Teruhiko (Sony) CE12 Subset1: Cross-verification of MediaTek's proposal JCTVC-E079
19582 Wen Zhang, Ming Li, Ping Wu (ZTE) CE5: Adaptive Coding of InterPredMode Syntax Elements
19583 Junichi Tanaka, Yoshitaka Morigami, Teruhiko Suzuki (Sony) Quantization matrix for HEVC
19584 Youji Shibahara, Takahiro Nishi (Panasonic) CE7: Mode Dependent 2-step Transform for Intra Coding
19585 Yi-Jen Chiu, Elena Alshina, Haoping Yu JCT-VC AHG report: Decoder-side motion vector derivation (DMVD)
19586 Youji Shibahara, Takahiro Nishi (Panasonic), CE7: Cross Check Report for Qualcomm, Toshiba, I2R and Huawei's proposal (JCTVC-E098) by Panasonic
19587 Youji Shibahara, Takahiro Nishi (Panasonic) CE7: Cross Check Report for Samsung's proposal (JCTVC-E380) by Panasonic
19588Yi-Jen Chiu (Intel), Haoping Yu (Huawei), Yu-Wen Huang (MediaTek), Shun-ichi Sekiguchi (Mitsubishi Electric), Wen-Hsiao Peng (NCTU)
CE1: Summary report of core experiment on decoder-side motion vector derivation (DMVD)
19589 Yasuko Sugito, Atsuro Ichigaya CE6.c: Cross-check report on Differential Coding of Intra Modes (DCIM)
19590 Shohei Matsuo, Yukihiro Bandoh, Takeshi Ito, Seishi Takamura, Hirohisa Jozawa (NTT) CE3: Region-based adaptive interpolation filter
19591 Oscar Au, Jizheng Xu, Haoping Yu JCT-VC AHG report: Screen content coding (SCC)
19592 J. An, Q. Huang, X. Guo, Y.-W. Huang, S. Lei (MediaTek) CE12 Subtest 1: Improved Deblocking Filter
28
19593 X. Zhang, S. Liu, S. Lei (MediaTek) Adaptive Inter Mode Coding for LCEC
19594 Sunmi Yoo, Woong Lim, Donggyu Sim, Seoung-Jun Oh
Performance evaluation of multi-view video and depth map data with AVC and HEVC for 3DV standardization
19595 S. Liu, X. Zhang, S. Lei (MediaTek) Syntax and Structure for Coding and Utilizing Partition Types
19596 Sven Klomp, Jörn Ostermann (Univ. Hannover)
CE1: Cross check results for contribution JCTVC-E084
19597 S. Liu, Z. Zhou, S. Lei (MediaTek) Evaluations and Suggestions about TU Representation
19598 Yi-Jen Chiu, Lidong Xu, Wenhao Zhang, Hong Jiang (Intel)
CE1: Report of self-derivation motion estimation techniques at video decoder side on HM2.0
19599 S. Liu, X. Zhang, S. Lei (MediaTek) Method and Syntax for Partial CU Merge
19600 T.Chujoh, E.Alshina CE3: Summary report of core experiment on interpolation for MC (Luma)
19601 Xing Wen, Oscar C. Au (HKUST), Mona Mathur(STMicro)
[AHG: Complexity Assessment] Summary of Complexity Assessment for CEs and Three-Level Assessment method
19602 M. Shima (Canon) CE4-subset1: Cross-check result of Huawei's fine granularity slice partition (JCTVC-E298)
19603 M. Guo, X. Guo, S. Lei (MediaTek) CE14 Subtest 1: Intra Most Probable Mode Coding for Luma
19604 M. Shima (Canon)CE4-subset2: Cross-check result of Huawei's intra coding improvements for slice boundary blocks (JCTVC-E283)
19605 X. Li, J. An, X. Guo, S. Lei (MediaTek) Adaptive CU Depth Range19606 X. Li, X. Guo, S. Lei (MediaTek) Adaptive De-Quantization Offset19607 X. Guo, J. Lin, Y.-W. Huang, S. Lei (MediaTek) Motion Vector Decimation for Temporal Prediction
19608 Shun-ichi Sekiguchi, Yusuke Itani (Mitsubishi Electric)
CE1 Subtest1: Cross-verification on Candidate-based DMVD without MV refienement
19609 Withdrawn - duplicate registration for AHG report
19610 Shigeru Fukushima, Masayoshi Nishitani, Toru Kumakura, Motoharu Ueda Unified motion vector removal process for AMVP
19611Shigeru Fukushima, Masayoshi Nishitani, Motoharu Ueda, Kazumi Arakage, Hideki Takehara
Partition size based selection for motion vector compression
19612 Hideki Takehara, Shigeru Fukushima (JVC) Temporal predictor restriction harmonized with motion vector compression
19613R. Joshi, P. Chen, M. Karczewicz (Qualcomm), A. Tanizawa, J. Yamaguchi (Toshiba), C. Yeo, Y. H. Tan (I2R), H. Yang, H. Yu (Huawei)
CE7: Mode dependent intra residual coding
19614 C. Yeo, Y. H. Tan (I2R) CE7: Cross-check of Samsung's proposal on alternative transforms (E125)
19615 C. Yeo (I2R) CE11: Cross-check of Qualcomm’s proposal on adaptive scans
19616 C. Yeo, Y. H. Tan, Z. Li (I2R) Simplified AMVP candidate derivation for Inter and Merge modes
19617 Y. H. Tan, C. Yeo, Z. Li (I2R), CE9: Skip/Merge Simplification with Reduced Candidate Set (Test L)
19618 Y. H. Tan, C. Yeo (I2R), CE9: Cross-check of Test D from HHI (JCTVC-E204)
29
19619 Y. H. Tan, C. Yeo, H. L. Tan, Z. Li (I2R) RQT depth selection
19620 H. L. Tan, Y. H. Tan, C. Yeo (I2R), CE14 Subtest 1: Cross-check report from Institute for Infocomm Research
19621 H. L. Tan, C. Yeo (I2R) Cross-check of Motorola's proposal on reduced context selection for CABAC
19622 Atsuro Ichigaya, Yasuko Sugito, Shinichi Sakaida, (NHK) CE7.6: Simplified adaptive transform selection
19623 P. Lai, F. C. A. Fernandes (Samsung) CE8 Subtest 3: Loop filter with directional similarity mapping
19624 P. Lai, F. C. A. Fernandes (Samsung)CE8 Subtest 3: Cross-check of MediaTek, Qualcomm, Toshiba’s proposal (JCTVC-E047) on adaptation between ALF and AO
19625 Guichun Li, Lingzhi Liu, Nam Ling, Jianhua Zheng, Philipp Zhang Report of CE6 e.1.d: Adding plane mode to UDI
19626 P. Lai, F. C. A. Fernandes (Samsung)CE8 Subtest 2: Cross-check of Qualcomm's proposal (JCTVC-E323) on block-based filter adaptation and directional features
19627 Guichun Li, Lingzhi Liu, Nam Ling, Jianhua Zheng, Philipp Zhang Cross check Report for LG's CE6.e proposals
19628 Guichun Li, Lingzhi Liu, Nam Ling, Jianhua Zheng, Yongbing Lin, Philipp Zhang
Using MPS to encode extended UDI mode numbers for robustness
19629 Minhua ZhouCross verification of LG proposal JCTVC-E059 on modifications of temporal mv compression and temporal mv predictor
19630 Minhua Zhou Evaluation results on merge mode in HM2.0
19631 Minhua Zhou CE9: Simplified upper/left MVP calculation based on JCTVC-D055
19632 Minhua Zhou Evaluation results on motion vector storage compression
19633 Minhua Zhou, Vivienne Sze A study on HM2.0 bitstream parsing and error resiliency issue
19634 Minhua Zhou (TI) A study on unification of JCTVC-D273 and JCTVC-D164 in HM2.0 software
19635 Minhua Zhou (TI) Cross verification of Microsoft proposal JCTVC-E148 on “an investigation on robust parsing†�
19636 J. Zan, D. He (RIM)CE11: Cross-verification of HHI's Coding of Transform Coefficient Levels with Golomb-Rice Codes (JCTVC-E253)
19637 Minhua Zhou (TI) Cross-verification of Mitsubishi proposal on Improvement to AMVP/Merge process
19638 Ankur Saxena, Felix Fernandes, Elena Alshina, Vadim Seregin (Samsung)
CE7 : Cross Check Report for Mode Dependent Intra Residual Coding (JCTVC-E098) by Samsung
19639 Ankur Saxena, Felix Fernandes (Samsung)CE 6e : Cross Check for DoCoMo's Proposal JCTVC-E321 on Planar mode experiments and results
19640 Ankur Saxena, Felix Fernandes, (Samsung) CE7: Mode-dependent DCT/DST without 4*4 full matrix multiplication for intra prediction
19641 Andrea Gabriellini, Marta Mrak (BBC)CE7 Tool 1: Cross Check Report for Mode Dependent Intra Residual Coding (JCTVC-E098) by BBC
19642 Andrea Gabriellini, Marta Mrak (BBC) CE7 Tool 2: Cross Check Report for Samsung's Mode-dependent DCT/DST (JCTVC-E125) by
30
BBC19643 Kenji Kondo, Teruhiko Suzuki (Sony) CE3: Results on Bi/Single MC interpolation filter19644 Kenji Kondo, Teruhiko Suzuki (Sony), Memory bandwidth reduction MC filter19645 J. Boyce, J. Kang, W. Wan, Y.-K. Wang JCT-VC AHG report: Scalable coding investigation
19646 Marta Mrak, Andrea Gabriellini (BBC), Jie Zhao, Andrew Segall (Sharp)
CE6.b.2: Report on Combined Intra Prediction with Parallel Intra Coding by BBC and Sharp
19647 TK Tan (NTT DOCOMO)
CE14.1: Results for DOCOMO’s proposal and cross verification of MediaTek’s implementation for the most probable mode signalling for luma.
19648 Y.Yasugi, T. Yamamoto (SHARP)CE11: Cross-check report of Qualcomm’s Adaptive Coefficient Scanning for LCEC (JCTVC-D374) by SHARP
19649 Andrey Norkin (Ericsson), Byeungwoo Jeon (SKKU), Matthias Narroschke (Panasonic)
CE12: Summary report of core experiment on deblocking filtering
19650 T.Chujoh, T.Yamakage (Toshiba) Adaptive scaling for reference pictures memory compression
19651 T.Chujoh, K.Kanou, T.Yamakage (Toshiba) CE3: Non-uniform tap length filtering for bidirectional prediction
19652 Withdraw
19653 Wenpeng Ding CE14: Test Results for Intra Mode Coding by Multiple Mode Candidates
19654 T.Ikai, T.Yamazaki(SHARP)CE8.2: Cross-check result of Qualcomm’s Block based adaptive loop filter (JCTVC-E323) by Sharp
19655 T.Ikai, T.Yamazaki(SHARP)CE8.3: Cross-check result of Samsung’s Loop filter with directional similarity mapping (JCTVC-E108) by Sharp
19656 Wenpeng Ding Test Material for Screen Content coding19657 T.Ikai, T.Yamazaki(SHARP) CE8.1: DF-combined adaptive loop filter
19658 T.Ikai, T.Yamazaki (SHARP) CE8.2: Region-based adaptive loop filter using two-dimensional feature
19659 S.-C. Lim, H. Y. Kim, J. Kim, J. Lee, J. S. Choi (ETRI)
Dynamic range restriction of temporal motion vector
19660L. Guo (Qualcomm), B. Li (USTC), X. Wang (Qualcomm), M. Karczewicz (Qualcomm), J. Xu (Microsoft)
CE5: Counter based adaptation for LCEC
19661 Z. Shi (USTC), X. Sun (Microsoft), J. Xu (Microsoft) CE12 Subset 1: Deblocking for large size blocks
19662 C. Lan (Xidian Univ.), X. Peng (USTC), J. Xu (Microsoft), F. Wu (Microsoft) Intra and inter coding tools for screen contents
19663 B. Li (USTC), J. Xu (Microsoft), F. Wu (Microsoft), H. Li (USTC) On merge candidate construction
19664 B. Li (USTC), J. Xu (Microsoft), F. Wu (Microsoft), H. Li (USTC) On motion information compression
19665 B. Li (USTC), J. Xu (Microsoft), F. Wu (Microsoft), H. Li (USTC) An investigation on robust parsing
19666 J. Xu (Microsoft) CE6.a: Cross-check report for JCTVC-E28619667 B. Li (USTC), J. Xu (Microsoft) CE11.B: Cross-check report for JCTVC-E29619668 Z. Shi (USTC), J. Xu (Microsoft) CE12: Cross-check report for JCTVC-E417
31
19669 B. Li (USTC), J. Xu (Microsoft) Cross-check report for JCTVC-E302
19670 B. Li (USTC), J. Xu (Microsoft) Cross-check report of adaptive CU depth range (JCTVC-E090)
19671 C.-C. Chen, C.-L. Lee, W.-H. Peng, H.-M. Hang (NCTU/ITRI) CE1: Report of DMVD-based Bi-prediction
19672 A.Fujibayashi, T.K Tan(NTT DOCOMO), F. Bossen(DOCOMO USA Labs)
CE9: Verification of TI’s proposal (JCTVC-E116)
19673 Y. Yasugi, T Yamamoto (SHARP) Simplification of transform coefficient coding in LCEC
19674 A. Fujibayashi(NTT DOCOMO), F. Bossen(DOCOMO USA Labs)
Cross verification of Unified motion vector removal process for AMVP(JCTVC-E095)
19675 Sang-Kyun Kim, Yong Soo Joo Study of encoding and decoding of binary representation
19676 J. Park, S. Park, B. JeonCE9 : Cross-verification of experiment M11, M12, M19, M20, M21, M29, M30 and M31 (JCTVC-E048)
19677 J. Lim, B. Jeon (LGE) CE5: Cross-check report of Microsoft and Qualcomm's Counter based adaptation for LCEC
19678 J. Lim, B. Jeon (LGE) CE5: Modified Joint Coding on Prediction Mode Signaling
19679 T. Yamamoto (SHARP)CE6.a: Cross-check of Bi-Intra Prediction using Slope Information from Sejong University and SKT (JCTVC-D287) by SHARP
19680 T. Yamamoto (SHARP) CE6.e: Cross-check of Planar Intra Prediction (1.f+2.a+3.b and 1.f+2.b+3.b) by SHARP
19681 Minhua Zhou (TI) Cross-verification of Microsoft proposal JCTVC-E147 on motion information compression
19682 Hisao Sasai, Takahiro Nishi (Panasonic)CE11: Cross-check report for Qualcomm's proposal JCTVC-D262 on Parallel Context Processing for the significance map
19683 Yongjoon Jeon (LG Electronics) CE6.e: Cross verification of SCU’s proposal (JCTVC-E110) on Planar Intra Prediction (1.d)
19684 Yongjoon Jeon, , Seungwook Park, , Joonyoung Park, , Byeongmoon Jeon CE6.e: Report on Planar Intra Prediction by LG
19685 Withdraw
19686 Yongjoon Jeon (LG) Cross verification of Nokia’s proposal (JCTVC-E174) on Unified Planar Intra Prediction
19687 Kazushi Sato (Sony) X-Check of E-156: Simplification of transform coefficient coding in LCEC
19688 Chan-Won Seo (Sejong Univ.), Jong-Ki Han (Sejong Univ.), Jeongyeon Lim (SKT) CE6.a : Bi-Intra Prediction using Slope information
19689 T. Yamakage, S. Asaka (Toshiba) CE12: Verification results of Ericsson's Proposal JCTVC-E276
19690 Hisao Sasai, Takahiro Nishi (Panasonic), Cross-check report for Sony's proposal on Context Reduction (JCTVC-E344)
19691 T. Yamakage, T. Watanabe (Toshiba) CE8.1: Verification results of Sharp's Proposal JCTVC-E140
19692 Jani Lainema, Kemal Ugur, Oguz Bici (Nokia) Unified planar intra prediction
19693 T. Yamakage, T. Watanabe (Toshiba) CE8.3: Verification results of Samsung's Proposal JCTVC-E108
19694 Xingyu Zhang, Oscar C. Au, Xing Wen, Jingjing Test sequences for screen content coding
32
Dai (HKUST)
19695 T. Yamakage, T. Watanabe (Toshiba) Verification results of TI's Proposal on Chroma ALF (JCTVC-E287)
19696 Wen Zhang, Lei Wang CE5: cross check report of qualcomm and microsoft's JCTVC-E143
19697 A. Tanizawa, J. Yamaguchi (Toshiba) CE7: Cross check report of Panasonic's proposal (Tool5 : JCTVC-E074) from Toshiba
19698 wen zhang, lei wang, , CE5: cross check report of LGE's JCTVC-E160
19699 Ikeda Masaru, Tanaka Junichi, Suzuki Teruhiko (Sony) CE12 Subset2: Parallel deblocking filter
19700 Ketan Tang, Oscar C. Au, Xing Wen, Jingjing Dai, Chao Pang, Feng Zou
Cross-check of MediaTek's proposal on TU Representation (JCTVC-E083)
19701 Keiichi Chono, Hirofumi Aoki, Yuzo Senda Cross-verification report of proposal on RQT root location (JCTVC-E364)
19702 Keiichi Chono, Hirofumi Aoki, Yuzo Senda CE6: Cross-verification report of LUT-based intraprediction filtering (JCTVC-E069)
19703 Keiichi Chono, Hirofumi Aoki, Yuzo Senda, CE6: Cross-verification report of planar intra prediction (JCTVC-D235)
19704 Keiichi Chono, Hirofumi Aoki, Yuzo Senda CE6: Cross-verification report of planar intra prediction (JCTVC-D326)
19705 Keiichi Chono, Hirofumi Aoki, Yuzo SendaCross-verification report on adaptive scaling for reference pictures memory compression (JCTVC-E133)
19706 T. Yoshino, S. Naito (KDDI) CE3 : Switching interpolation filter scheme
19707 Keiichi Chono, Hirofumi Aoki, Yuzo Senda, Cross-verification report on memory bandwidth reduction MC filter (JCTVC-E129)
19708 K. Kawamura, T. Yoshino, S. Naito (KDDI) Adaptive loop filtering using directional activity
19709 Keiichi Chono, Hirofumi Aoki, Yuzo Senda, Cross-verification report on temporal predictor restriction method harmonized with motion vector compression (JCTVC-E097)
19710 Keiichi Chono, Hirofumi Aoki, Viktor Wahadaniah, ChongSoon Lim Proposal of enhanced PCM coding in HEVC
19711
T. Yamakage, S. Asaka, T. Watanabe, T. Chujoh (Toshiba), C.-Y. Chen, C.-M. Fu, C.-Y. Tsai, Y.-W. Huang, S. Lei (MediaTek), M. Karczewicz, I. S. Chong (Qualcomm)
CE8.1: Deblocking parameter adjustment for 1-input ALF
19712
T. Yamakage, T. Watanabe, T. Chujoh (Toshiba), C.-Y. Chen, C.-M. Fu, C.-Y. Tsai, Y.-W. Huang, S. Lei (MediaTek), M. Karczewicz, I.S. Chong (Qualcomm)
Unified Chroma Filter Shape with Luma for ALF
19713 T. Yoshino, S. Naito (KDDI) CE3:Cross-check for NTT's proposal on Region-Based Adaptive Interpolation Filter (JCTVC-E078)
19714 Félix Henry, Stéphane Pateux, , Wavefront Parallel Processing19715 Ming Li, Ping Wu, Lei Wang, Wen Zhang (ZTE) Comments on Common Test Conditions for ALF19716 M. Kobayashi, M. Shima (Canon) Sub-LCU level delta QP signaling
19717 Kenji Kondo, Teruhiko Suzuki (Sony), Cross verification of pulse code modulation mode for HEVC (JCTVC-E057)
19718 Kenji Kondo, Teruhiko Suzuki (Sony), , CE3: Cross verification of non-uniform tap length filtering for bidirectional prediction (JCTVC-E134)
19719 M. Guo, X. Guo, S. Lei (MediaTek) Context Dependent Intra Mode Coding19720 Masato Shima (Canon), Sung-Chang Lim Support for Sub-LCU-Level QP in HEVC
33
(ETRI), Yu-Wen Huang (MediaTek), Chong Soon Lim (Panasonic), Kazushi Sato (Sony), Madhukar Budagavi (TI),
19721 Viktor Wahadaniah, ChongSoon Lim, SueMonThet Naing (Panasonic)
Constrained intra prediction scheme for flexible-sized prediction units in HEVC
19722 Benjamin Bross CE9: Results of Tests B, C, D and T
19723 Shohei Matsuo, Yukihiro Bandoh, Takeshi Ito, Seishi Takamura, Hirohisa Jozawa, ,
CE3: Cross-check for KDDI's proposal on Switching interpolation filter scheme (JCTVC-E188)
19724 Masaaki Matsumura, Yukihiro Bandoh, Seishi Takamura, Hirohisa Jozawa, In-loop filter based on non-local means filter
19725 T. Yamakage (Toshiba), I. S. Chong (Qualcomm), M. Narroschke (Panasonic)
CE8: Non-deblocking Loop Filtering - Summary Report
19726 A. Tanizawa, T. Shiodera (Toshiba) CE6.b.2: Cross check report of BBC's proposal (JCTVC-E130) from Toshiba
19727 A. Tanizawa, T. Shiodera (Toshiba) CE6.d: Cross check report of Sharp's proposal (JCTVC-E315) from Toshiba
19728 A. Tanizawa, T. Shiodera (Toshiba)CE6.e: Cross check report of combination with (1.a+2.b+3.a) for Planar intra prediction from Toshiba
19729 A. Tanizawa, T. Shiodera (Toshiba) CE14 subtest 1: Cross check report of BUT's proposal (JCTVC-E136) from Toshiba
19730 T. Shiodera, A. Tanizawa, T. Chujoh, T. Yamakage (Toshiba) Modified motion vector memory compression
19731 Keiichi Chono, Hirofumi Aoki, Yuzo SendaCross-verification report on constrained intra prediction scheme for flexible-sized prediction units (JCTVC-E203)
19732 Motoharu Ueda, Satoru Sakazume, CE1: Cross-verification report of NCTU's proposal (JCTVC-E154) by JVC KENWOOD
19733T. Yamakage (Toshiba), K. Chono (NEC), Y. J. Chiu (Intel), I. S. Chong (Qualcomm), M. Narroschke (Panasonic)
JCT-VC AHG report: In-loop and post-processing filtering
19734 Viktor Wahadaniah, ChongSoon Lim (Panasonic)
Cross-verification report on pulse code modulation mode for HEVC (JCTVC-E057)
19735 Hirofumi Aoki, Keiichi Chono, Yuzo Senda (NEC) Prediction-based QP derivation
19736 Motoharu Ueda, , Bi-prediction by single motion vector using decoder-side inter-reference ME
19737 C. Pang, O. C. Au, F. Zou, J. Dai, X. Wen(HKUST), Improved dQP Calculation Method
19738 Patrice Onno (Canon) CE9: Cross verification of experiments G and H by Canon
19739 Martin Höffernig AVDP AHG Contribution from JRS
19740Guillaume Laroche, Christophe Gisquet, Patrice Onno, Edouard Francois, Nael Ouedraogo, Julien Ricard (Canon)
Robust solution for the AMVP parsing issue
19741 Kazushi Sato, Jun Xu (Sony) Preliminary Implementation on Sub-LCU-Level DeltaQP
19742 Roberto Borgotallo AVDP AHG Contribution from RAI
19743Guillaume Laroche, Patrice Onno, Edouard Francois, Christophe Gisquet, Nael Ouedraogo, Tangi POIRIER (Canon),
On memory compression for motion vector prediction
34
19744Nael Ouedraogo, Patrice Onno, Guillaume Laroche, Edouard Francois, Christophe Gisquet, (Canon)
Slices modifications for HEVC
19745 J. Lee, S.-C. Lim, H. Lee, D. S. Jun, H. Y. Kim (ETRI),
Single Interpolation for Multi-sample Prediction (SIMP) for Intra Coding
19746 Joel Jung, Benjamin Bross, Peisong Chen, Woo-Jin Han
CE9: Summary report of core experiment 9 on MV Coding and Skip/Merge operations
19747 Matthias Narroschke, , Thomas Wedi CE12.2: Results for parallel deblocking filter decisions
19748 Semih Esenlik, Matthias Narroschke, Thomas Wedi, , Line Memory Reduction for ALF Decoding
19749 Hisao Sasai, Takahiro Nishi (Panasonic), Parallel Context Processing for Significance map using block-based context updates
19750 Hisao Sasai, Takahiro Nishi (Panasonic), CE11: Context size reduction for the significance map
19751 Toshiyasu Sugio, Takahiro Nishi (Panasonic), CE9: Cross-check report of experiment C by Panasonic
19752 Toshiyasu Sugio, Takahiro Nishi (Panasonic), CE9: Cross-check report of experiment M22-M26 by Panasonic
19753 Toshiyasu Sugio, Takahiro Nishi (Panasonic), CE9: Experiment A, I, J and S Modified derivation process of reference index for skip mode and temporal motion vector predictor
19754 Toshiyasu Sugio, Takahiro Nishi (Panasonic), , Modified motion vector compression method
19755 Michael Tok, Andreas Krutz (Tech. Univ. Berlin) CE1: Cross-verification report of NCTU's proposal (JCTVC-E154) by TUB
19756 M. Budagavi (TI) Verification results of CE8: eBrisk Video's contribution on ALF (JCTVC-E342)
19757 M. Budagavi (TI) Verification results of CE8: Samsung's contribution on ALF (JCTVC-E108)
19758 M. Budagavi (TI)Verification results of CE10: Samsung/FastVDO's contribution on core transform - normal QP range (JCTVC-E277)
19759 M. Budagavi (TI)Verification results of CE10: Qualcomm's contribution on core transform - low and high QP range (JCTVC-E370)
19760 M. Budagavi (TI)Verification results of Toshiba, MediaTek, Qualcomm's contribution on chroma ALF (JCTVC-E194)
19761 M. Budagavi (TI), Verification results of MediaTek's contribution on sub-LCU delta QP (JCTVC-E051)
19762 M. Budagavi, V. Sze (TI), Verification results of CE6.b1: short distance intra prediction (SDIP) (JCTVC-E278)
19763 Jani Lainema, Kemal Ugur (Nokia), Reducing size of the LCEC coefficient coding tables
19764 K. Ugur, J. Lainema (Nokia) Low complexity bi-predictive interpolation with 6-tap DCT-IF filter
19765Jamie MARSHALL, Mihai MITREA, Bojan JOVESKI, Ludovico GARDENGHI, Françoise PRETEUX
Draft Requirements on MPEG Scene Technology for Collaborative Applications
19766 K. Ugur, J. Lainema (Nokia) On clipping in bi-directional averaging
19767 A. Fuldseth, G. Bjøntegaard (Cisco), M. Sadafale, M. Budagavi (TI),
Transform design for HEVC with 16 bit intermediate data representation
35
19768 K. Ugur (Nokia) CE3: Cross-check of Sony's proposal E128
19769 A. Fuldseth (Cisco) CE5: Cross-check of Sony’s contribution JCTVC-E319
19770 Joel Jung, Jean-Marc Thiesse (Orange - FT) CE9: Cross-check of experiment B (HHI JCTVC-E204), M27 and M28 (MediaTek JCTVC-E048)
19771Bojan JOVESKI, Ludovico GARDENGHI, Mihai MITREA, Iain James MARSHALL, Françoise PRETEUX
Collaboration Technology Mandate Report : Performance Issues
19772 Semih Esenlik, Matthias Narroschke (Panasonic)
CE8 Subtest2: Cross-check Results for Proposal JCTVC-E046
19773 Semih Esenlik, Thomas Wedi (Panasonic) CE3: Cross-check Results for the Proposal of eBrisk (JCTVC-E284)
19774 Haricharan Lakshman (Fraunhofer HHI), CE3: Cross-check of Motorola Mobility's proposal JCTVC-E358
19775R. Sjoberg (Ericsson), Y. Chen (Qualcomm), M. Horowitz (eBrisk), K. Kazui (Fujitsu), A. Segall (Sharp)
JCT-VC AHG report: Slice support development and characterization
19776 Benjamin Bross CE9: Cross-check of Test A (Panasonic JCTVC-E230)
19777 Matthias Narroschke, , Thomas Wedi Decisions for deblocking
19778 Laurent Guillo, Ronan Boitard
CE2: Cross-check report of Non Rectangular Motion Partitioning (NMRP) + Overlapped Block Motion Compensation (OBMC), proposal JCTVC-E373
19779 T. Nguyen (Fraunhofer HHI) CE11: Coding of transform coefficient levels with Golomb-Rice codes
19780 withdraw
19781 T. Nguyen (Fraunhofer HHI)CE11: Cross-check of JCTVC-E296 (JCTVC-D311) Adaptive coefficients scanning for inter-frame coding
19782 Sam Narasimhan, Paul Haskell, Wade WanProposed Study Text of ISO/IEC 13818-1:2007/PDAM 7 - Signalling of stereoscopic video in MPEG-2 systems
19783 Kenneth Andersson, Andrey Norkin, Rickard Sjöberg (Ericsson AB)
CE12 subset 1: Cross verification of MediaTek’s deblocking by Ericsson
19784 Matthias Narroschke, Semih Esenlik, , CE12: Cross-check results of the parallel deblocking filter of Sony (JCTVC-E181)
19785 Virginie Drugeon, Thomas Wedi, Matthias Narroschke,
Improvement of inter mode coding and split flags coding for LCEC
19786 M. Winken CE2: Cross-check report of test 2a and 2b19787 R. Sjoberg, P. Wennersten (Ericsson), CE4 Subset1: Ericsson fine granularity slices
19788 Laurent Guillo, Ronan BoitardCross Verification Report of Canon proposal JCTVC-E219 on Robust solution for the AMVP parsing issue
19789Glenn Van Wallendael, Sebastiaan Van Leuven, Jan De Cock, Rik Van de Walle (Ghent University - IBBT),
Intra Encoding acceleration by simplification of RDOQ
19790Glenn Van Wallendael, Sebastiaan Van Leuven, Jan De Cock, Rik Van de Walle (Ghent University - IBBT),
CE6.b.2: Cross-check report of Combined Intra Prediction with Parallel Intra Coding (JCTVC-E130) from Ghent University-IBBT
19791 C.-Y. Chen, Y.-W. Huang (MediaTek) CE5: Cross Verification of JCTVC-E143 Proposed by Microsoft and Qualcomm
36
19792 C.-Y. Chen, Y.-W. Huang (MediaTek) CE8 Subtest 3: Cross Verification of JCTVC-E108 Proposed by Samsung
19793 J. Chen, V. Seregin, W.-J. Han (Samsung), J. Kim, J. Moon (LGE),
CE6.a.4: Chroma intra prediction by reconstructed luma samples
19794 Y.-W. Chen, J.-L. Lin, Y.-W. Huang (MediaTek) CE9: Cross Verification of Experiment N Proposed by LG and Qualcomm in JCTVC-E350
19795 J. Chen (Samsung) CE14.1: Cross-verification of the most probable mode signalling for luma (JCTVC-E131)
19796 Y.-W. Chen, J.-L. Lin, Y.-W. Huang (MediaTek) Cross Verification of JCTVC-E059 Proposed by LG
19797 V. Seregin, J. Chen (Samsung), CE12.1: Cross-verification of the deblocking filter from Ericsson (JCTVC-E276) by Samsung
19798 J. Chen, V. Seregin, W.-J. Han (Samsung), CE6.b1: Cross-verification of Short Distance Intra Prediction Method (JCTVC-E278) by Samsung
19799 I.-K. Kim (Samsung), CE4: Cross-verification on slice-boundary filtering - Subset2 case1 and case2
19800 I.-K. Kim, T. Lee (Samsung), CE9: Cross-verification on M01, M02, M03, M07 and M10 of JCTVC-E048
19801 I.-K. Kim, T. Lee (Samsung), CE10: Cross-verification on Cisco/TI’s transform (JCTVC-E243)
19802 I.-K. Kim, T. Lee(Samsung), CE10: Cross-verification on Qualcomm’s transform (JCTVC-E370)
19803 Andrey Norkin, Kenneth Andersson, Rickard Sjöberg (Ericsson) CE12.1: Ericsson deblocking filter
19804 I.-K. Kim, T. Lee, J. Chen, V. Seregin, Y. Hong, W.-J. Han (Samsung), P. Topiwala (FastVDO),
CE10: Fast integer transform based on modified Loeffler’s factorization
19805
X. Cao (Tsinghua), X. Peng (USTC), C. Lai (HiSilicon), Y. Wang (Tsinghua), Y. Lin (HiSilicon), J. Xu (Microsoft), L. Liu (HiSilicon), J. Zheng (HiSilicon), Y. He (Tsinghua), H. Yu (Huawei), F. Wu (Microsoft), ,
CE6.b1 Report on Short Distance Intra Prediction Method
19806 J. Boyce, D. Hong, S. Wenger (Vidyo) Extensible High Layer Syntax for Scalability19807 S. Wenger, J. Boyce, D. Hong (Vidyo) Picture Orientation Information19808 S. Wenger, J. Boyce (Vidyo) Slice parameter set19809 A. Abbas, J. Boyce (Vidyo) Cross check of JCTVC-E081
19810 Y. Lin (HiSilicon), C. Lai (HiSilicon), J. Zheng (HiSilicon), L. Liu (HiSilicon), ,
CE4 Subset2: Report of Intra Coding Improvements for Slice Boundary Blocks
19811 Faouzi Kossentini, Nader Mahdi, Hsan Guermazi, Mohammed Ali Ben Ayed An Adaptive Interpolation Filtering Technique
19812 Benjamin Bross CE9: Cross-check of Test O (Qualcomm JCTVC-E350)
19813 Y. Lin (HiSilicon), C. Lai (HiSilicon), J. Zheng (HiSilicon), L. Liu (HiSilicon),
CE6 Subset A: Report of Improved Intra prediction for positive directions in UDI
19814 M. Budagavi, V. Sze, M. Zhou (TI) Chroma ALF with reduced vertical filter size19815 P. Lai, F. C. A. Fernandes (Samsung) Loop filtering with directional features
19816 Y. Lin (HiSilicon), L. Liu (HiSilicon), J. Zheng (HiSilicon), C. Lai (HiSilicon), , Simplified Planar Intra Prediction
19817 J. Zheng (HiSilicon), Y. Lin (HiSilicon), H. Yu (Huawei),
CE6.a: Cross-check Report for CE6.a.2 Sejong's Bi-Intra Prediction
19818 Zhi Zhou, Shan Liu (MediaTek), Cross-check Report for I2R’s Proposal JCTVC-E104 by MediaTek
37
19819 S. Li (Tsinghua), X. Zheng (HiSilicon), Y. He (Tsinghua), ,
Simplification and improvement of merge mode coding
19820 Withdrawn
19821 S. Lin (Huawei), M. Yang (Huawei), H. Yu (Huawei), , CE1: Huawei report on DMVD in HM2.0
19822 M. Yang (Huawei), , Cross-check report for Microsoft's proposal JCTVC-EXXX
19823 J. Song (Huawei), M. Yang (Huawei), H. Yang (Huawei), H. Yu (Huawei), ,
CE11: Adaptive coefficients scanning for inter-frame coding
19824 L. Guo, X. Wang, M. Karczewicz (Qualcomm), , Cross-verification of Nokia's contribution Reducing size of the LCEC coefficient coding tables (JCTVC-E240)
19825 Q. Shen (Huawei), Q. Xie (Huawei), H. Yu (Huawei), ,
CE4 Subset1: Report on fine granularity slice partition
19826 Yi-Jen Chiu, Lidong Xu, Wenhao Zhang, Hong Jiang, ,
Cross-check result of MediaTek's AQO (JCTVC-E091)
19827 Cheung Auyeung (Sony)CE11: Cross check of Qualcomm JCTVC-D262 on parallel context processing for the significance map in high coding efficiency
19828 Q. Shen (Huawei), Q. Xie (Huawei), H. Yu (Huawei), ,
CE4 Subset1: Cross-check report for Ericsson's Fine granularity slices
19829 L. Zhang (Huawei), Q. Shen (Huawei), Q. Xie (Huawei), H. Yu (Huawei), , Modification for robust parsing of AMVP
19830 L. Zhang (Huawei), Q. Shen (Huawei), Q. Xie (Huawei), H. Yu (Huawei), ,
Cross-checking of an investigation on robust parsing results from Microsoft
19831 L. Guo, P. Chen, R. Joshi, M. Karczewicz (Qualcomm)
Overlapped Block Motion Compensation for Regular Block Partitions
19832 G. Cook, W. Gao, D. Wang, J. Zhou, H. Yu (Huawei), , Video Test Material Submission for
19833 Y. Weng CE7: Adaptive Combined Wavelet/DCT Transform
19834 Alex Giladi, Gerard Fernando, Nhut Nguyen, Hojin Ha DASH TSL: Lightweight TS profile
19835 I.-K. Kim, T. Lee (Samsung) Improved motion vector decimation
19836 Tomoyuki Yamamoto, Andrew Segall Cross-check of motion vector compression by JVC KENWOOD (JCTVC-E096)
19837 S. Wenger (Vidyo), Parameter set updates using conditional replacement
19838 Q. Huang, J. An, X. Guo (MediaTek) CE12 Subset1: Cross-verification of Ericsson's proposal JCTVC-E276
19839 J. An, X. Guo (MediaTek) CE12 Subset1: Cross-verification of Microsoft's proposal JCTVC-E144
19840 G. Van der Auwera, I. S. Chong, M. Karczewicz (Qualcomm)
CE12 Subset 2: Cross-Verification of Panasonic’s Parallel Deblocking Contribution (JCTVC-E224) by Qualcomm
19841 M. Guo, X. Guo (MediaTek) CE14 Subset 1: Cross-verification of NTTDOCOMO’s Proposal JCTVC-E131
19842 G. Van der Auwera, I. S. Chong, M. Karczewicz (Qualcomm)
CE12 Subset 2: Cross-Verification of Sony’s Parallel Deblocking Contribution (JCTVC-E181) by Qualcomm
19843 Jie Zhao, Andrew Segall, , CE6.d Parallel Prediction Unit for Parallel Intra Coding
38
19844 I.-K. Kim (Samsung), P. Chen, L. Guo (Qualcomm)
CE2: Test results of asymmetric motion partition (AMP) with overlapped block motion compensation (OBMC)
19845 Jani Lainema, Kemal Ugur, Oguz Bici (Nokia), , CE6.e: Nokia report on planar intra prediction
19846 Ehsan Maani, Ali Tabatabai, Tomoyuki Yamamoto, Akiyuki Tanizawa, Virginie Drugeon, Differential Coding of Intra Modes
19847 Jun Xu, Munsi Haque, Ali Tabatabai (Sony) CE5: Improvements on transform coefficients coding in LCEC
19848 Ehsan Maani, Wei Liu, , Parametric Adaptive Loop Filter
19849 Sandeep Kanumuri (DOCOMO USA Labs), Frank Bossen (DOCOMO USA Labs), , CE6.e/f: Planar mode experiments and results
19850 Jun Xu, Munsi Haque, Ali Tabatabai, , CE5: Cross-verification of Qualcomm’s coefficient coding for LCEC by Sony
19851
I. S. Chong, M. Karczewicz (Qualcomm), C.-Y. Chen, C.-M. Fu, C.-Y. Tsai, Y.-W Huang, S. Lei (MediaTek), T. Yamakage, T. Chujoh, T. Watanabe (Toshiba)
CE8 Subtest 2: Block based adaptive loop filter
19852 V. Sze (MIT), A. Chandrakasan (MIT) Joint Algorithm-Architecture Optimization of CABAC
19853 I. S. Chong, M. Karczewicz (Qualcomm) CE8 Subset 2: Cross-Verification of Sharp’s Adaptive loop filter by Qualcomm
19854 V. Sze (TI)CE11: Cross-verification of HHI's (JCTVC-D336) Coding of transform coefficient levels with Golomb-Rice codes
19855 I. S. Chong, M. Karczewicz (Qualcomm) CE8 Subset 3: Cross-Verification of Samsung’s Adaptive loop filter by Qualcomm
19856 Faouzi Kossentini, Hsan Guermazi, , CE3: Cross-check of JCTVC-D285 results from KDDI
19857 Y. Matsuba, V. Sze, M. Zhou (TI) Removal of cabac_zero_word for error detection/resilience
19858 V. Sze, M. Budagavi (TI)Reduced neighboring dependency in context selection of significant_coeff_flag for parallel processing
19859 I. S. Chong, M. Karczewicz (Qualcomm) CE8 Subset 4: Cross-Verification of SONY’s Adaptive loop filter by Qualcomm
19860 I. S. Chong, M. Karczewicz (Qualcomm) CE13: Cross-Verification of MediaTek’s adaptive offset
19861 Louis Kerofsky, Kiran Misra, Andrew Segall, , Transform Dynamic Range Analysis
19862 Andrey Norkin (Ericsson)CE8.1: Cross-verification of proposal on deblocking parameter adjustment for 1-input ALF (E193) by Ericsson
19863 J. Sole, R. Joshi, M. Karczewicz (Qualcomm) Unified scans for the significance map and coefficient level coding in high coding efficiency
19864 Jie Zhao, Andrew SegallCross Check of ETRI’s Proposal on Dynamic Range Restriction of Temporal Motion Vector JCTVC-E142
19865 Jie Zhao, Andrew Segall, , Cross Check of Toshiba’s Proposal on Modified MV Memory Compression (JCTVC-E211)
19866 J. Sole, R. Joshi, M. Karczewicz (Qualcomm), CE11: Parallel Context Processing for the significance map in high coding efficiency
19867 R. Sjoberg (Ericsson), On num_reorder_frames and max_dec_frame_buffering
39
19868 Faouzi Kossentini, Hsan Guermazi CE8: Cross-check of JCTVC-D039 results from TI19869 Mathias Wien, , Approximation Quality of Integer Transforms
19870 Faouzi Kossentini, Hsan Guermazi, Nader Mahdi, Mohammed Ali BenAyed, Adaptive Loop Filtering Using Two Filter Shapes
19871 Y. Zheng, W.-J. Chien, M. Karczewicz (Qualcomm)
Extended Motion Vector Prediction for Bi predictive Mode
19872 Cheung Auyeung, Wei Liu (Sony) Context reduction of the last transform position in JCTVC-D262 for CE11.1
19873 Y.-K. Wang (Huawei) NAL unit header and sub-bitstream extraction19874 Y.-K. Wang (Huawei) Reuse of AVC SEI messages
19875 L. Guo, I.-S. Chong, M. Karczewicz (Qualcomm)CE3:Cross-verification of SONY's Luma Interpolation Contribution (JCTVC-E128 and case 0 of JCTV-E129)
19876 Y.-K. Wang, Z. Wu (Huawei), On reference picture list construction for uni-predicted partitions
19877 L. Guo, Peisong Chen, M. Karczewicz (Qualcomm)
CE2: Cross-verification of Asymmetric Motion Partitioning with OBMC and Non-Square TU from Tsinghua, Huawei &HiSilicon, Microsoft and USTC (JCTVC-EXXX)
19878 J. Park, S. Park, B. Jeon (LG Electronics), Y. Zheng, W. Chien, M. Karczewicz (Qualcomm) CE9 Subtests N and O: Improvement on AMVP
19879 G. Van der Auwera, I. S. Chong, M. Karczewicz (Qualcomm)
CE3: Cross-Verification of Toshiba’s Contribution (JCTVC-E134) by Qualcomm
19880 Jie Zhao, Andrew Segall, , Cross Check of Panasonic’s Proposal on Modified Motion Vector Compression Method (JCTVC-E231)
19881 Pankaj Topiwala, Wei Dai, Ilkoo Kim, CE10: Fast Core Transforms, Proposal 119882 V. Sze, M. Budagavi (TI) Further study on entropy coding
19883
Y.-K. Wang (Huawei), J. Boyce (Vidyo), Y. Chen (Qualcomm), K. Kazui (Fujitsu), T. Schierl (Fraunhofer HHI), R. Sjöberg (Ericsson), T. K. Tan (NTT DOCOMO)
JCT-VC AHG report: High-level syntax
19884 J. Lou, K. Panusopone, L. Wang (Motorola Mobility)
CE3: Cross-check report from Motorola Mobility for Toshiba's interpolation filter (JCTVC-E134)
19885 J. Lou, K. Panusopone, L. Wang (Motorola Mobility)
CE10: Cross-check report from Motorola Mobility for FastVDO/Samsung's fast integer transform (JCTVC-E353)
19886 J. Lou, K. Panusopone, L. Wang (Motorola Mobility)
CE11: Cross-check report from Motorola Mobility for Qualcomm's adaptive coefficient scanning for LCEC (JCTVC-E392)
19887 J. Lou, K. Minoo, D. Baylon, K. Panusopone, L. Wang (Motorola Mobility)
CE3: Report on Motorola Mobility's interpolation filter for HEVC
19888 J. Lou, K. Minoo, D. Baylon, K. Panusopone, L. Wang (Motorola Mobility) Motorola Mobility's adaptive interpolation filter
19889 G. Van der Auwera, X. Wang, M. Karczewicz (Qualcomm)
Cross-Verification of ETRI’s Contribution (JCTVC-E223) by Qualcomm
19890 J. Lou, K. Minoo, D. Baylon, K. Panusopone, L. Wang (Motorola Mobility) Supporting one list only coding for HM
19891 J. Lou, K. Panusopone, L. Wang (Motorola Mobility)
On context selection for significant_coeff_flag coding
19892 K. Panusopone, Y. Yue, L. Wang (Motorola Mobility) Motorola Mobility's adaptive scan
40
19893 K. Panusopone, X. Fang, L. Wang (Motorola Mobility) Proposal on RQT root location
19894 K. Panusopone (Motorola Mobility), K. Chono (NEC), Y.H. Tan (I2R), M. Zhou (TI)
Evaluation of RQT in HM and related TU representation
19895 R. Joshi (Qualcomm)CE10: Crosscheck of Cisco/TI's contribution (JCTVC-E243) on core transforms - normal QP range
19896 Ali Tabatabai, Keiichi Chono, Muhammed Coban, Marta Mrak, Akiyuki Tanizawa
CE6: Intra Prediction Improvements Summary Report
19897 R. Joshi (Qualcomm)CE10: Crosscheck of Samsung's fast integer transforms based on Loeffler factorization (JCTVC-E277) - high and low QP range
19898 R. Joshi (Qualcomm), Crosscheck of Sharp's contribution (JCTVC-E411) on enforcing the 16-bit inverse transform dynamic range
19899 G. Van der Auwera, M. Coban, M. Karczewicz (Qualcomm)
CE6.f: Cross-Verification of Mitsubishi/NHK’s LUT-Based Intra Prediction Filtering Contribution (JCTVC-E069) by Qualcomm
19900 R. Joshi, Y. Reznik, J. Sole, M. Karczewicz (Qualcomm)
CE10: Scaled orthogonal integer transforms supporting recursive factorization structure
19901 Chan-Won Seo (Sejong Univ.), Jong-Ki Han (Sejong Univ.), Jeongyeon Lim (SKT)
CE6.c: Cross-check of Differential Coding of Intra Modes (DCIM, JCTVC-E318) by Sejong University
19902 Chan-Won Seo, Jong-Ki Han (Sejong Univ.), Jeongyeon Lim (SKT)
Cross-Verification: Simplified Planar Intra Prediction (HiSilicon, JCTVC-E289)
19903 X Zheng, P. Bordes, P. Chen, I.-K Kim CE2: Summary Report of core experiment on Flexible Motion Partitioning
19904 X. Zheng, H. Yu (Huawei & HiSilicon), P. Bordes, L. Guo, P Chen
CE2: Test results of non-rectangular motion partitioning (NRMP) with overlapped block motion compensation (OBMC)
19905 P. Bordes, P. Chen, I.-K Kim, L. Guo, H. Yu, X. Zheng CE2: Unified solution of flexible motion partitioning
19906 ChongSoon Lim, Viktor Wahadaniah (Panasonic)
Design consideration for compatibility with AVC NAL units
19907
Y. Yuan (Tsinghua), X. Zheng (HiSilicon), X. Peng (USTC), L. Liu (HiSilicon), Y. Wang (Tsinghua), X. Cao (Tsinghua), J. Xu (Microsoft), C. Lai (HiSilicon), J. Zheng (HiSilicon), Y. He (Tsinghua), H. Yu (Huawei)
Asymmetric Motion Partition with OBMC and Non-Square TU
19908 X. Wang, I.K. Kim, P. Wu CE5: Summary report of low complexity entropy coding improvements
19909 L. Guo, X. Wang, P. Chen, Y. Chen, M. Karczewicz (Qualcomm)
Limiting Chroma Transform Depth in Residue Quad Tree (RQT)
19910 E. Alshina, J. Chen, W.-J. Han (Samsung) Cross-verification for Sony’s test (JCTVC-E129) by Samsung
19911 E. Alshina, A. Saxena, W.-J. Han (Samsung), CE7: Cross-verification for Panasonic’s test (JCTVC-E074) by Samsung
19912 E. Alshina, A. Alshin, F. Fernandes, A. Saxena, V. Seregin, Z. Ma, W.-J. Han (Samsung) CE7: Experimental results of ROT by Samsung
19913 J. Chen, T. Lee, Y. Park (Samsung) Improvement of inter prediction direction and reference frame index combined coding in LCEC
19914 Ali Tabatabai, Cheung Auyeung (Sony) Cross check of TI proposal JCTVC-E330 on context simplification of significance map
41
19915 M. Karczewicz, X. Wang, W.-J.Chien (Qualcomm) CE5: coefficient coding with LCEC for large block
19916 M. Karczewicz, X. Wang, W.-J. Chien (Qualcomm) LCEC coefficient coding table reduction
19917 Ali Tabatabai, Cheung Auyeung, Ehsan Maani (Sony)
CE13: Cross checking of case 3 and case 4 of JCTVC-E049 on adaptive offset proposed by MediaTek
19918 M. Budagavi (TI) IDCT pruning
19919 X. Wang, L. Guo, M. Karczewicz (Qualcomm) CE5: Crosscheck of Sony's contribution (JCTVC-E319) on LCEC transform coefficient coding
19920 Gerard Fernando, Zhao Yu, Li ZhuPing Updated MMT CfP response
19921 E. Alshina, J. Chen, W.-J. Han (Samsung), CE3: Cross-verification for Motorola Mobility’s test by Samsung
19922 E. Alshina, I.-K. Kim, W.-J. Han (Samsung), CE13: Cross-verification for MediaTek's test (JCTVC-E049) by Samsung
19923 Yasuaki Tokumo, Maki Takahashi, Shuichi Watanabe,
DASH: Proposal on URL anchors for DASH MPD (EE-AMP)
19924 G. J. Sullivan, J.-R. Ohm (AHG chairs) JCT-VC AHG report: Project management
19925 G. J. Sullivan (Microsoft) The art of writing standards: Some "shalls" and "shoulds" for better quality interop specs
19926 Japan National Body JNB comment on HEVC development
19927 Muhammed Coban, Wei-Jung Chien, Marta Karczewicz (Qualcomm) CU-Level QP Prediction
19928 X.Wang, L. Guo, M. Coban, M. Karczewicz (Qualcomm) CE11: Adaptive Coefficient Scanning for LCEC
19929 W.-J. Chien, X. Wang, M. Karczewicz (Qualcomm)
CE5: Cross-verification of ZTE proposal on Inter prediction mode coding for LCEC ( JCTVC-E072)
19930 P. Chen (Qualcomm) CE4: Cross-verification of MediaTek proposal on slice granularity (JCTVC-E043)
19931 Ali Tabatabai, Shawmin Lei, Oscar Au, HM2 Chroma Intra Coding Description
19932 Y. Zheng, W.-J. Chien, M. Karczewicz (Qualcomm)
Unified Motion Vector Predictor Selection for Merge and AMVP
19933 G. Van der Auwera, M. Coban, M. Karczewicz (Qualcomm)
CE6.c: Cross-Verification of Differential Coding of Intra Modes (JCTVC-E318)
19934 Y. Zheng, W.-J. Chien, M. Karczewicz (Qualcomm)
On Temporal Motion Prediction used for Merge and AMVP
19935 Ying Chen, Marta Karczewicz (Qualcomm) Sliding Window for Temporal Scalability
19936 Ying Chen, Coban Muhammed, Peisong Chen, Marta Karczewicz, Comments on Clean Decoding Refresh Pictures
19937 Peisong Chen, Ying Chen, Xianglin Wang, Marta Karczewicz, , Slice Design with Fine Granularity
19938 J. Sole, M. Coban (Qualcomm), Cross-check of I2R’s Simplified AMVP candidate derivation (JCTVC-E101) by Qualcomm
19939 J. Sole (Qualcomm), CE11: Cross-check of Panasonic’s context size reduction for the significance map (JCTVC-E227) by Qualcomm
19940 P. Chen, X. Wang, W. Chien, M. Karczewicz (Qualcomm), B. Li, J. Xu (Microsoft)
CE5: LCEC coded block flag coding under residual quadtree
19941 Q. Shen (Huawei) Cross Verification of JCTVC-E042 Proposed by MediaTek
42
19942 Muhammed Coban, , CE6: Cross verification of Microsoft, Huawei, Hisilicon’s Short Distance Intra Prediction Method (Part 2) JCTVC-E278
19943 Xun Guo (MediaTek), Ali Tabatabai (Sony), Oscar Au (HKUST) HM2.0 Chroma Intra Coding Description for WD2
19944 Masayuki Tanimoto, Toshiaki Fujii, Mehrdad Panahpour Tehrani, Menno Wildeboer,
3DV/FTV EE4 report on Champagne Tower sequence
19945 Masayuki Tanimoto, Toshiaki Fujii, Mehrdad Panahpour Tehrani, Menno Wildeboer,
3DV/FTV EE2 extrapolation report on Champagne Tower
19946 Arild Fuldseth (Cisco), Michael Horowitz (eBrisk), Minhua Zhou (TI) Tiles
19947 Kiran Misra, Andrew Segall (Sharp) New results for periodic inits for wavefront coding functionality
19948 Jie Zhao, Andrew Segall, , Cross Check of Canon's Proposal on Memory Compression for Motion Vector Prediction (JCTVC-E221)
19949 Kiran Misra, Louie Kerofsky, Andrew Segall, , Enforcing the 16-bit inverse transform dynamic range
19950 Kiran Misra, Andrew Segall, , Tiles for Parallel Decoding19951 JTC 1/SC 6 via SC 29 Secretariat Liaison Statement from JTC 1/SC 6/WG 7
19952 R. Cohen, A. Vetro, H. Sun(MERL) CE7: Cross-verification of NHK's (JCTVC-E107) Simplified Adaptive Transform Selection
19953 Kiran Misra, Andrew Segall, , Cross verification of Tiles (JCTVC-E408)
19954 Kiran Misra, Andrew Segall, Cross verification of Wavefront Parallel Processing (JCTVC-E196)
19955 Kiran Misra, Louie Kerofsky, Andrew Segall, , CE10: Cross check of FastVDO/Samsung's fast integer transform
19956 Jungyoup Yang, Kwanghyun Won, Byeungwoo Jeon (SKKU), Jeongyeon Lim (SK Telecom), CE12 Subset1: SKT/SKKU Deblocking Filter
19957 Jungyoup Yang, Kwanghyun Won, Byeungwoo Jeon, Jeongyeon Lim, ,
CE12 Subset1: Cross-verification Results of Ericsson Deblocking Filter (JCTVC-E276) by SKT/SKKU
19958 Jungyoup Yang, Kwanghyun Won, Byeungwoo Jeon
CE9: Cross-verification Results of Experiment L for I2R Proposal (JCTVC-E102) by SKKU
19959 R. Joshi (Qualcomm) CE7: Crosscheck of Samsung's ROT results (JCTVC-E380)
19960 Muhammed Coban, , Crosscheck of Cisco's Tiles Proposal (JCTVC-E408)
19961 R. Sjoberg, T. Rusert, Z. Wu (Ericsson) NAL unit header concept with support for bit stream scalability
19962 Félix Henry, , Cross verification of new results for periodic inits for wavefront coding functionality (JCTVC-E409)
19963 T. Nguyen, M. Preiß (Fraunhofer HHI) Cross-check results for MIT's proposal JCTVC-E324
19964 Mischa Siekmann, Heiko Schwarz, Benjamin Bross, Detlev Marpe, Thomas Wiegand Fast encoder control for RQT
19965 Elena Alshina, Jianle Chen, Alexander Alshin, Nikolay Shlyakhov, Woo-Jin Han,
Experimental results of 4 taps/5 bits Chroma DCTIF in HM2.0
19966 P. Lai, F. C. A. Fernandes (Samsung), Cross-check of MediaTek's proposal (JCTVC-E080) on Adaptive Inter Mode Coding for LCEC
19967 R. Cohen, S. Rane, A. Vetro, H. Sun (MERL), Low Complexity Embedding of Information in
43
Transform Coefficients
19968 Ajay Luthra Scalable enhancement requirements for HEVC and AVC
19969 David Singer (Apple) On Profile signaling19970 Dong Tian, Anthony Vetro MPEG 3DV EE2 on Newspaper19971 S. R. Quackenbush 95th MPEG Audio Report19972 S. R. Quackenbush Thoughts on USAC audio/systems interaction
19973 V. Sze (TI)Cross-verification of Panasonics (JCTVC-E226) Parallel Context Processing For Significance Map by Block-based context updates
19974 Koohyar Minoo, David Baylon, Ajay Luthra (Motorola Mobility) Spatial Scalability for HEVC
19975 Alex Giladi, Ali Jerbi, Arturo Rodriguez, Gerard Fernando
DASH: Advanced trick mode support in MPEG-2 TS segments
19976 Pankaj Topiwala, Madhukar Budagavi, Rajan Joshi, Arild Fuldseth, Ilkoo Kim
CE10: Summary report for CE on core transform design
19977 Pankaj Topiwala, Madhukar Budagavi, Rajan Joshi, Robert Cohen JCT-VC AHG report: Spatial transforms
19978 D. Hoang (Zenverge) Unified scaling for 10-bit to 8-bit reference frame compression
19979 Cheung Auyeung, Wei Liu (Sony) Proposed text of JCTVC-D260 for WD2
19980 J.-L. Lin, Y.-W. Chen, Y.-W. Huang (MediaTek) CE5: Cross Verification of JCTVC-E383 Proposed by Qualcomm
19981 Yongwei Zhu, Ti Eu Chan, Inseon JangStudy of ISO/IEC 23000-12/WD Compact representation of dynamic volume change and audio equalization
19982 Gergely Korodi, Dake He (RIM) QuYK
19983 C. Pang, O. C. Au, J. Dai, F. Zou, X. Wen(HKUST), Sub-LCU QP representation
19984 Jane Zhao, Andrew Segall (Sharp) On intra prediction
19985Lingyu Duan, Rongrong Ji, Jie Chen, Shuang Yang, Chunyu Wang, Tiejun Huang, Hongxun Yao, Wen Gao
Multi-Channel Compact Visual Descriptor with Adaptive Channel Learning
19986 P Chen, Y. Zheng, Marta Karczewicz, , Cross-verification of simplification and improvement of merge mode coding (JCTVC-E292)
19987 Liang Zhao, Li Zhang, Siwei Ma, Debin Zhao, , CE6.g: Cross-verification report for Mitsubishi Electric's proposal (JCTVC-E068) by Peking Univ.
19988 Yi-jen Chiu, Lidong Xu, Wenhao Zhang, Hong Jiang, ,
CE1: Cross-check result of Huawei’s STDM (JCTVC-E294)
19989 Youngkwon Lim (on behalf of AHG) Review of w11792
19990 X. Zheng, , Cross-verification of Overlapped Block Motion Compensation for Regular Block Partition (JCTVC-E304)
19991 Gun Bang, Min Soo Ko, Jisang Yoo, Gi-Mun Um, Won-Sik Cheong, Namho Hur
3DV/FTV EE2 extrapolation report on Balloons sequence
19992 Gun Bang, Min Soo Ko, Jisang Yoo, Gi-Mun Um, Won-Sik Cheong, Namho Hur
Boundary noise removal and hole filling for VSRS3.5 alpha
19993 P. Chen, M. Karczewicz, , Cross-verification of MediaTek proposal on motion vector decimation (JCTVC-E092) and context dependent intra mode coding (JCTVC-E201)
44
19994 W.-J. Chien, M. Karczewicz (Qualcomm)Cross-verification of MediaTek’s proposal on Reduction in Combinations of Reference Picture Indices for Bi-Prediction ( JCTVC-E052)
19995Aljoscha Smolic, Miquel Angel Farre, Oliver Wang, Nikolce Stefanoski, Alexander Hornung, Manuel Lang
Image Domain Warping as Alternative to DIBR for Advanced 3DV Applications
19996 A. G. Tescher for USNB USNB Contribution: Multimedia preservation requirements
19997 A. G. Tescher for USNB USNB Contribution: Request for new editions
19998 A. G. Tescher for USNB USNB Contribution: Commercial deployment of MPEG DASH
19999 A. G. Tescher for USNB Descriptor tag value availability
20000 Taejin Lee, Seungkwon Beack, Minje Kim, Kyeongok Kang
Further information regarding ETRI USAC Encoder
20001 Sang-Beom Lee, Cheon Lee, Yo-Sung Ho 3DV EE1 Results on the Café Sequence20002 Min-Koo Kang, Sang-Beom Lee, Yo-Sung Ho 3DV EE4 Results on the Café Sequence
20003 Min-Koo Kang, Yo-Sung Ho 3DV EE4 Results on Color Corrected ‘Newspaper’ Sequence
20004 Cheon Lee, Yo-Sung Ho 3DV EE5 Results on Newspaper Sequence
20005 Cheon Lee, Yo-Sung Ho Implementation of Hole Filling Methods for VSRS 3.5.alpha
20006Toru Chinen, Yuki Yamamoto, Mitsuyuki Hatanaka, Hiroyuki Honma, Masayuki Nishiguchi,
Corrections and additional information on PVC part of USAC DIS
20007 Mitsuyuki Hatanaka, Toru Chinen, Masayuki Nishiguchi,
Sony listening test report on lossless coding of pitch lag for ACELP CE
20008 C. Yeo (I2R) CE10: Cross-check of Qualcomm’s proposal on scaled orthogonal integer transforms (E370)
20009 Deliang Fu, Lu YU, 3DV EE4 Report on Poznan_Street Sequence
20010 M. Budagavi, G. Martin-Cocher, A. Segall (AHG Chairs) JCT-VC AHG report: Entropy coding
20011 M. Budagavi, K. Sato, G. Martin-Cocher (AHG Chairs) JCT-VC AHG report: Quantization
20012 Shuichi Aoki, Hiroyuki Hamada, Katsunori Aoki, Kiyoharu Aizawa
Proposal of modifications to Advanced Transport Scheme regarding MMT
20013 Y. H. Tan, C. Yeo (I2R) Cross-check of MediaTek’s proposal on partial Merge (JCTVC-E085)
20014 Seong Yong Lim, Injae Lee, Sanghyun Park, Jihun Cha, Youngkwon Lim Proposed Study Text of CD 23007-2
20015 Seungsin Lee, HoCheon Lee, Seok Lee, Jaejoon Lee, Du-Sik Park
3DV EE4 Results on Balloons sequence and EE5 Results on Kendo sequence
20016 Shuichi Watanabe, Yasuaki Tokumo, Maki Takahashi,
Considerations on Hybrid delivery support on MPEG Media Transport (MMT)
20017 Jaewon Sung, Sehoon Yea 3DV EE2 extrapolation results on Newspaper20018 Gerard Fernando Comments on MPEG-2 TS Support in DASH
20019 Seongwan Kim, Jaeho Lee, Sangyoun Lee (Yonsei Univ.) Coefficient coding table improvement in LCEC
20020 F Bossen, K Sühring, D Flynn JCT-VC AHG Report: Software development and HM software technical evaluation
20021 F Bossen, D Flynn, K Sühring HEVC Reference Software Manual
45
20022 Zhao Yu, Li ZhuPing, Gerard Fernando Proposal on DASH: Timing and Live Services (TLS)
20023 Takehiro Moriya, Yutaka Kamamoto, Noboru Harada
Additional information of CE on lossless coding of pitch lag for ACELP in USAC
20024 Manel Hentati, Mohamed Abid, Yassine Aoudni, Jean François Nezan
FPGA Dynamic reconfiguration using the RVC technology: Inverse Quantification case study
20025 Yongju Cho, Jihun Cha Updated MMT CfP response20026 Jeongook Song, Henney Oh, Hong-Goo Kang Status report on USAC Reference Software JAME
20027 Jun Zhang, Ri Li, Houqiang Li, Dmytro Rusanovskyy, Miska M. Hannuksela
Ghost Town Fly 3DV sequence for purposes of 3DV standardization
20028 Payman Aflaki, Dmytro Rusanovskyy, Miska M. Hannuksela,
Undo Dancer 3DV sequence for purposes of 3DV standardization
20029 Dmytro Rusanovskyy, Payman Aflaki, Miska M. Hannuksela,
3DV EE4 Results on the Ghost Town Fly test sequence
20030 Dmytro Rusanovskyy, Jun Zhang, Ri Li, Houqiang Li, Miska M. Hannuksela
3DV EE4 Results on the Undo Dancer test sequence
20031 Roch Lefebvre, Redwan Salami, Philippe Gournay, Bruno Bessette Additions to USAC specification
20032 Philippe Gournay, Roch Lefebvre, Jimmy Lapierre VA Crosscheck for NTT Pitch Lag Coding
20033 Jean Le Feuvre, Cyril Concolato Clarifications for MPEG-4 over MPEG-2
20034 Max Neuendorf Corrections to Reference Software and DIS of USAC
20035Bernhard Grill, Max Neuendorf, Roch Lefebvre, Kristofer Kjörling, Heiko Purnhagen, Werner Oomen
Proposed profiles for MPEG-D USAC
20036 Jani Lainema, Kemal Ugur (Nokia)Cross-check of Qualcomm’s proposal on LCEC coefficient coding table reduction (JCTVC-E384)
20037 Martin Köppel, Patrick Ndjiki-Nya, 3DV EE2 Results on View Synthesis
20038 Michael Grafl, Christian Timmerer, (on behalf of ANB)
Austrian NB comments on Study of ISO/IEC CD 23006-4 2nd edition
20039 Michael Grafl, (on behalf of the editors) Editor's Input on Study of ISO/IEC CD 23006-4 2nd edition
20040 Michael Grafl, Christian Timmerer, (on behalf of ANB)
Austrian NB comments on Study of ISO/IEC CD 23006-5
20041 Michael Grafl, (on behalf of the editors) Editor's Input on Study of ISO/IEC CD 23006-5
20042 Markus Waltl, Christian Timmerer (on behalf of editors)
Editor's Input on MPEG-V Conformance and Reference Software
20043 Christian Timmerer, Markus Waltl Austrian NB comments on ISO/IEC Study of FCD 23005-7
20044 Markus Waltl, Christian Timmerer Implementation of DASH Conformance
20045Thomas Rusert, Per Fröjdh, Gun Bang, Won-Sik Cheong, Jaewon Sung, Jaejoon Lee, Du Sik Park, Sally Hattori,
Use of additional supplementary data in responses to the CfP on 3DV
20046 Thomas Rusert, Zhuangfei Wu, Per Fröjdh Comments on Call for Proposals on 3D Video Coding Technology
20047 Giovanni Cordara, Gianluca Francini Comments on crosscheck of ETRI and Peking University datasets
20048 Anthony Vetro, Dong Tian, Shinya Shimizu 3DV Trial Proposal Preparation and Comments on CfP
46
20049 David Virette Proposal for MPEG-D USAC verification test
20050 David Virette Additional information for the CE on adaptive T/F domain post-processing for USAC
20051 Fabian Jäger HEVC Simulcast Encoding at Proposed 3D Video Coding Anchor Bit Rates
20052 Gregory Pallone, Pierrick Philippe Proposition for the USAC verification tests
20053 fons bruls, luc do EE2 Results using a directional inpainting method and VSRS_alpha results
20054 Cyril Concolato Proposal for DASH Conformance
20055 Cyril Concolato, Jean Le Feuvre, Romain Bouqueau Comments on DASH DIS
20056 Cyril Concolato, Jean Le Feuvre, Romain Bouqueau On MPEG-2 TS indexing with the sidx box
20057 fons bruls ASD evalution data derived from the bitstream of the dry-run
20058
Jonas Engdegård, Heiko Purnhagen, Oliver Hellmuth, Jürgen Herre, Cornelia Falch, Leon Terentiv, Johannes Hilpert, Andreas Hölzer, Werner Oomen
Report on corrections for MPEG SAOC
20059Truong Cong Thang, Jin Young Lee, Jung Won Kang, Seong-Jun Bae, Soon-heung Jung, Sang Taick Park
Response to DASH EE#14 - Timing and Live Service
20060Truong Cong Thang, Jin Young Lee, Jung Won Kang, Seong-Jun Bae, Soon-heung Jung, Sang Taick Park
Additional Features for DASH's Representation
20061 Per Fröjdh, Torbjörn Einarsson, Thorsten Lohmar DASH Profiles
20062Andreas Hoelzer, Johannes Hilpert, Christian Ertel, Ferenc Kraemer, Leif Sehlstrom, Heiko Purnhagen
Corrections to MPEG Surround reference software
20063 Sascha Disch, Achim Kuntz, Christian Uhle Information on Applause Classification for TSD20064 Jaime Delgado, VÃctor RodrÃguez Contribution towards a MPEG-21 CEL CD
20065 VÃctor RodrÃguez, Jaime Delgado Implementation of the AIT Use Cases with the current version of MPEG-M
20066Bernhard Grill, Max Neuendorf, Roch Lefebvre, Kristofer Kjörling, Heiko Purnhagen, Werner Oomen,
Proposed amendment to ISO/IEC 14496-3 MPEG-4 Audio
20067 Christian Tulvan, Marius Preda RGC implementation for QBCR
20068Erhan Ekmekcioglu, Stewart Worrall, Hemantha Kodikara Arachchi, Safak Dogan, Banu Gunel, Ahmet Kondoz
New Multi-view Test Sequences and Camera Parameters for 3DV Standardisation Work
20069Max Neuendorf, Markus Multrus, Stefan Döhla, Heiko Purnhagen, Frans de Bont, Julien Robilliard, Philippe Gournay,
Follow-up on proposed revision of USAC bit stream syntax
20070 Erhan Ekmekcioglu, Stewart Worrall, Vladan Velisavljevic, Demuni De Silva, Ahmet Kondoz
Multi-view Depth pre-processing using joint filtering for improved coding performance
20071 Rob Glidden, Gerard Fernando, Yun He, Cliff Reader, Jianwen Chen
Proposed Draft Text for Objective, Applications, and Requirements for Type-1 Video Coding
20072 Rob Glidden, Cliff Reader, Tiejun Huang, Gerard Fernando
Proposed Draft Text for Call for Proposals (CfP) for Type-1 Video Coding
20073 Rob Glidden, Cliff Reader Information on Type-1 (Royalty Free) Video Coding
47
20074Damien de Saint Jorre, Jérôme Gorin, Jean-François Nezan, Mickaël Raulet, Nicolas Siret, Matthieu Wipliez, Hervé Yviquel
Report on Performance of Generated Code (C, LLVM, and VHDL) from RVC Descriptions
20075 Matthieu Wipliez, Mickaël Raulet, Jean-François Nezan Proposition of Changes to the Syntax of RVC-CAL
20076 Matthieu Wipliez, Mickaël Raulet, Jean-François Nezan
Proposition to Add Support of Native Functions and Procedures to RVC-CAL
20077 Matthieu Wipliez, Damien de Saint Jorre, Mickaël Raulet, Jean-François Nezan
Proposition of Functions and Actors for an RVC-CAL Standard Library
20078 Roch Lefebvre, Heiko Purnhagen, Max Neuendorf, Werner Oomen Proposed Workplan for USAC Verification Test
20079 Ingo Kofler, Christopher Müller, Stefan Lederer, Christian Timmerer Comments on DASH
20080 Christopher Müller, Christian Timmerer Session Mobility for DASH: Input to the EE on AMP
20081 Mark Watson, Thomas Stockhammer DASH: ContentDescriptorType
20082 Waqar Zia, H J Lee, Kyungho Kim Text amendments related to MPEG-2 TS in Annex-B of DASH DIS
20083 Robert Kuschnig, Christopher Müller, Stefan Lederer, Christian Timmerer Input to the EE on DASH QM
20084 K. Panusopone, W.-J. Han, T. K. Tan, T. Wiegand JCT-VC AHG report: Coding block structures
20085 Francisco Morán Burgos (on behalf of ESNB) ESNB position paper on multimedia preservation
20086 Jin Young Lee, Seong-Jun Bae, Jung Won Kang, Soon-heung Jung, Sang Taick Park Comments on MMT TuC evaluation process
20087 Considerations on MPEG-2 TS in DASH20088 Thomas Stockhammer On DASH Quality Metrics20089 Thomas Stockhammer EE Report on TLS20090 Thomas Stockhammer Guidelines for Timing and Live Services in DASH20091 Thomas Stockhammer EE Report on CDN
20092 Thomas Stockhammer Summary of 3GPP Discussions and Agreements on Compatibility
20093 Thomas Stockhammer, Per Fröjdh On Content Protection for Live Services in DASH20094 Thomas Stockhammer On DASH Compliance20095 Imed Bouazizi, Miska M. Hannuksela DASH: Definition of a simple On-Demand Profile20096 Imed Bouazizi DASH: Additional Derived QM Metrics20097 Imed Bouazizi DASH: QM Reporting Initiation20098 Miska M. Hannuksela DASH EE DTS: MPEG2-TS hint tracks 20099 Miska M. Hannuksela Comments on 14496-12:2008 DAM320100 Yuriy Reznik CDVS BoG report from 95th MPEG meeting
20101 fons bruls Comments on the nokia 3DV new seq's and CfP suggestions
20102 Tingfang Tang, Ye-Kui Wang, Zhenyu Wu DASH CE#6: rewind trick mode support20103 Ye-Kui Wang, Tingfang Tang, Zhenyu Wu DASH CE#14: server events siganling20104 Ye-Kui Wang, Peiyu Yue, Shaobo Zhang DASH: Comments on DIS20105 Ye-Kui Wang DASH CE#6 (TRA) report --- withdrawn20106 K. McCann, T. Wiegand (co-chairs), B. Bross,
W.-J. Han, J.-R. Ohm, J. Ridge, S. Sekiguchi, G. JCT-VC AHG report: HEVC Draft and Test Model editing
48
J. Sullivan (vice chairs)
20107 Jeongil Seo, Kyeongok Kang Comments on Audio for High Efficiency Video Coding
20108 David Singer Proposed Simple MPEG-2 Transport DASH profile
20109 David Singer Random Access in 14496-12, the ISO Base Media File Format
20110 David Singer File Tracks (TuC) in 14496-12, the ISO Base Media File Format
20111 A. Leontaris, P. V. Pahalawatta, Y. He, A. M. Tourapis, W. J. Husak,
Reformatting tools for frame-compatible and full-resolution stereoscopic content
20112 Walt Husak 3D content report20113 Thoughts on MFC Testing20114 Peiyu YUE DASH: Enhancement on QM Metrics
20115 Ali Begen, Ali Jerbi, Alex GiladiPackaging and Delivery of Index and Initialization Information for DASH Streaming of MPEG2-TS Content
20116 Jie Zhao, Andrew Segall Cross Check of Motorola Mobility's Interpolation Filter
20117 TTA(Korea)Updated signaling of stereoscopic video in MPEG-2 systems for service compatible stereoscopic service
20118
20119 Zhijie Zhao, Alex Giladi, Joern Ostermann Proposal for MPEG-2 Transport Stream Extensions for DASH
20120 Peiyu YUE DASH: Clarification on timeline for external periods
20121 Joel Jung, Elie Mora CE6 e: Cross check of experiment 1f+2b+3b (LG - JCTVC-Exxx)
20122 Keiichi Chono, Takeshi Chujoh, ChongSoon Lim, Ali Tabatabai, Minhua Zhou
JCT-VC AHG report: Reference pictures memory compression
20123 David Fuentes Sánchez, Francisco Morán Burgos
More results on texturing support for MR3DMC (Multi-Resolution 3D Mesh Compression)
20124 Yong YuTitle: Impact of Motion Vector Predictor Index Decoding on Parallelization between CABAC and Other Decoder Components
20125 G. Van der Auwera, Y. Zheng, L. Guo, X. Wang, M. Karczewicz (Qualcomm)
Cross-Verification of Mediatek’s Contribution (JCTVC-E050) by Qualcomm
20126 Teresa Andrade, Helder Castro, Edoardo Radica, Giuseppe Tropea Input contribution for DID extension
20127 T.-D. Chuang, C.-Y. Chen, Y.-W. Huang (MediaTek)
CE8 Subtest 5: Cross Verification of JCTVC-E287 Proposed by TI
20128 J.-L. Lin, Y.-W. Chen, Y.-W. Huang (MediaTek) Cross Verification of JCTVC-E396 Proposed by Qualcomm
20129 J.-L. Lin, Y.-W. Chen, Y.-W. Huang (MediaTek) Cross Verification of JCTVC-E398 Proposed by Qualcomm
20130 Y.-W. Chen, J.-L. Lin, Y.-W. Huang (MediaTek) CE9: Cross Verification of Experiment T Proposed by HHI in JCTVC-E204
20131 Scott Fierstein Liaison Response From DECE on DASH and ISOBMFF Amendment
20132 CE20133 Jianle Chen, Vadim Seregin CE5: Cross-verification of LCEC coded block flag
49
coding under residual quadtree (JCTVC-E404)
20134 Hirofumi Aoki, Keiichi Chono, Yuzo Senda, Cross-verification report for Samsung’s contribution on motion vector decimation (JCTVC-E307)
20135 S. Kanumuri, F. Bossen (DOCOMO USA Labs)CE7: Cross-check of mode-dependent DCT/DST (restricted to 4x4 TUs) for intra coding (JCTVC-E125)
20136 Alex Giladi MPEG-2 TS MIME type and parameters
20137 Alex Giladi DASH: Content descriptors for multiplexed representations
20138 Jae-Joon Han, SeungJu Han, ByungIn Yoo, Changkyoo Choi, Dusik Park Hand based Interaction for intuitive manipulation
20139 Youji Shibahara, Takahiro Nishi (Panasonic)CE7: Cross-check report for Samsung’s proposal on adaptive DST/DCT transform (JCTVC-E125) by Panasonic
20140 Minsu Ahn, James D.K. Kim Connectivity Coding for Multi-Resolution 3D Mesh
20141 Seungju Han, Jae-Joon Han, Wonchul Bang, James D.K. Kim Binary representation for Bio-sensed Information
20142 Jae-Joon Han, Seungju Han, Wonchul Bang, James D.K. Kim
Binary representation for Gas & Dust sensed information
20143 Jae-Joon Han, SeungJu Han, Wonchul Bang, James D.K. Kim
Binary representation for Bend sensor capability and sensed information
20144 Gun-Ill Lee, Jaeyeon Song, Kyungmo Park Proposal on ISO/IEC 23000-11 Stereoscopic Video AF Amd.
20145 Sungryeul Rhyu Proposal on the MMT E2 Unit20146 IEC TC 100 via SC 29 Secretariat IEC CD 6269820147 Teruhiko Suzuki JCT-VC AHG report: Video test material selection
20148 K. Ugur, E. Alshina, P. Chen, T. Chujoh (AhG Chairs)
JCT-VC AHG report: Motion compensation interpolation
20149J. Xu (Microsoft), M. Coban (Qualcomm), Y.-W. Huang (MediaTek), J. Jung (Orange Labs), P. Onno (Canon Research Centre France)
JCT-VC AHG report: Parsing robustness
20150 J. Park, Y. Choi, S. Park, B. Jeon Cross Verification of JCTVC-E343 Proposed by Qualcomm
20151 E. Bezati, M. Mattavelli A proposal for RVC-CAL, Run-Time configuration
20152Kyung Won Kim, Jae Won Moon, Tae-Beom Lim, Seok-Pil Lee(KETI), Kyoungro Yoon, Min-Uk Kim(Konkuk University)
Usage scenario for adaptive application using RequestContent of MPEG-M
20153 Guichun Li Cross Verification for Unified scaling for 10-bit to 8-bit reference frame compression
20154 L. Guo, P. Chen, M. Karczewicz (Qualcomm)CE2: Cross-verification of Asymmetric Motion Partition with OBMC and Non-Square TU (JCTVC-E376)
20155 Mark Watson DASH: CDN Selection
20156 Faouzi Kossentini, Nader MahdiVerification results of CE8: Panasonic's contribution on ALF “Line memory reduction for ALF decoding†(JCTVC-E225)�
20157 EBU, NHK AVDP AHG Report
20158 Kilroy Hughes, Harry Pyle, Iraj Sodagar, John Simmons
Profile Considerations for DASH: How To Divide The Infinite Profile Space into Few Useful Profiles
20159 Kilroy Hughes, Harry Pyle, Quintin Burns Switchable Track Fragment Profile: A DASH
50
Profile for General MP4 Live and On Demand Services
20160 Hans Hoffman Liaison from SMPTE20161 Thomas Stockhammer Server Event Signalling in DASH
20162 Y. Zheng Cross-Verification of Samsung’s Contribution (JCTVC-E288) by Qualcomm
20163 Seungwook Lee, Ji Hyung Lee, Sinwook Lee, Cui Li, Euee S. Jang Comments on the RGC implementation of M20067
20164Seungwook Lee, Ji Hyung Lee, Sinwook Lee, Taehee Lim, Sowon Kim, Minsoo Park, Euee S. Jang
Contribution of SC3DMC FUs for RGC framework
20165 Y. H. Tan, C. Yeo (I2R) CE12 Subset1: Cross-check of SKT/SKKU’s proposal on Deblocking Filter (JCTVC-E417)
20166 Bum Suk, Additional Use Case for MPEG-M based on Sensory Information
20167 J. Xu (Microsoft) CE6.a.4: Cross-check report for JCTVC-E266
20168 Cheung Auyeung, Ali Tabatabai, (Sony) Cross checking of MediaTek proposal JCTVC-E080 on adaptive inter mode coding for LCEC
20169 Takehiko Nakano, Mitsuhiro Hirabayashi Study on ISO/IEC 14496-12 DAM3
20170Félix Henry (Orange Labs), Kiran Misra (Sharp), Stéphane Pateux (Orange Labs), Andrew Segall (Sharp)
Combined proposal JCTVC-E196 and JCT-VCE409
20171 Minhua Zhou Cross-verification of Nokia proposal JVCTV-E242 on clipping in bi-directional averaging
20172 Walter Allasia, Wo Chang Digital Preservation Issues in Audiovisual Archives
20173 Jie Zhao, Andrew SegallCross Check of CE10: Qualcomm’s Proposal on Scaled Transform -- 16bit Low and High QP Range (JCTVC-E370)
20174 F. Bossen (DOCOMO USA Labs) Verification of JCTVC-E335: Scans for coefficient level coding with CABAC
20175 C.-Y. Tsai, C.-W. Hsu, Y.-W. Huang (MediaTek) Cross Verification of JCTVC-E470 Proposed by Orange Labs and Sharp
20176 Nhut Nguyen, Xin Wang DASH MPD Security Protection EE Report
20177 J. Xu (Microsoft) Cross Verification of Combination of JCTVC-E046 and JCTVC-E323
20178 Nhut Nguyen, Jaeyeon Song, Sungryeul Rhyu, Kyungmo Park Comments on DIS text of DASH specification
20179 G. Van der Auwera Cross-Verification of Panasonic’s Contribution (JCTVC-E251) by Qualcomm
20180 Zhu Li, Xin Xin, Aggelos Katsaggelos Mixed Image/Video Data Set for CDVS MPEG Effort
20181 SC 29 Secretariat Late Comments on ISO/IEC CD 23006-1 [2nd Edition]
20182 SC 29 Secretariat Late Comments on ISO/IEC CD 23006-4 [2nd Edition]
20183 Comparison of BD-rates and run-times of entropy coders in HM-2.0
20184 A. Fuldseth (Cisco), M. Karczewicz (Qualcomm), M. Haque (Sony),
BoG report on extending LCEC to larger block sizes
20185 Jianle Chen, Sunil Lee, Jeonghoon Park Cross-verification of Yonsei university’s proposal on coefficient coding table improvement
51
in LCEC (JCTVC-E446) 20186 Kevin Murray, Eyal Farkash, Eli Hibshoosh Comments on Annex I in 14496-12:2008 DAM 3
20187 Didier Nicholson Liaison document from TC223/WG5 to SC29/WG11
20188 R. Cohen BoG Report on Transforms20189 3GPP via SC 29 Secretariat Liaison Statement from 3GPP
20190 Vladimir Levantovsky Draft text of the white paper on Composite Font Representation
20191 Sylvain KERVADEC MPEG DASH for progressive download
20192 Krzysztof Wegner, Olgierd Stankiewicz, Marek Domański
3DV/FTV EE4 report on Poznan Street and Poznan CarPark sequences
20193 [email protected] John Grant Slides presented to MMT AhG re FN and AVB
20194 Benjamin Bross, Joel Jung BoG report of CE9: MV Coding and Skip/Merge operations
20195 Seong Yong Lim, Injae Lee, HeeKyoung Lee, Jihun Cha, YoungKwon Lim,
Proposed modification for multi interaction point, gaze tracking and wind sensors
20196 Lazar Bivolarsky Input to the Type-1 Video Coding Requirements
20197 Lazar Bivolarsky Input to the Call for Proposals (CfP) for Type-1 Video Coding
20198 J. Xu (Microsoft) Cross-check report for JCTVC-E113
20199 Rickard Sjoberg, Shawmin Lei, Yu-Wen Huang, Qiu Shen BoG on fine granularity slices
20200 Andrea Gabriellini, Marta Mrak (BBC)Cross Check Report for Intra Encoding Acceleration by Simplification of RDOQ (JCTVC-E262) by BBC
20201 T. Nguyen, M. Siekmann Report on fix of CBF for RDOQ
20202 M. Shima (Canon)Verification result of Sony's Preliminary Implementation on Sub-LCU-Level DeltaQP (JCTVC-E220)
20203 P. Lai, J. Chen, F. C. A. Fernandes (Samsung)CE8 Subtest 5: Cross-check of eBrisk+TI's proposal (JCTVC-E492) with vertical length-5 filters
20204Rickard Sjöberg (Ericsson), Changcai Lai (HiSilicon), Keiichi Chono (NEC), Viktor Wahadaniah (Panasonic)
BoG report and proposal on padding of unavailable reference samples for intra prediction
20205 COST Action IC1003 (QUALINET) via SC 29 Secretariat
Liaison Statement from European Cooperation in Science and Technology (COST) Action IC1003 (QUALINET)
20206 Gunnar Heikkilä Comments on DASH Quality Metrics20207 Pankaj Topiwala, Gaëlle Martin-Cocher 444 YUV sequences for LCVC
20208 V. Sze (TI), H. Sasai (Panasonic) Modification to JCTVC-E227 in CE11 for reduced dependency with MDCS
20209 David Flynn Simplifying decoder mismatch checking
20210 Sang-il Na, Weon-Geun Oh, Jun-Woo Lee, Dong-Jun Seo, Dong-Seok Jeong Report of Sud-PARIS dataset annotation
20211 Weon-Geun Oh, Sang-il Na, Jun-Woo Lee, Hae-Kwang Kim, Dong-Seok Jeong
Report of the MAP program
20212 Sang-il Na, Weon-Geun Oh, Jun-Woo Lee, Kyoungho Choi, Dong-Seok Jeong Report of merge the SIFT into CDVS framework
20213 Hisao Sasai (Panasonic) Cross-check report for TI's proposal on
52
Modification to JCTVC-E227 (JCTVC-E489)20214 David Zhe Lou Camera Sensor Type and Command
20215 F. Kossentini, H. Guermazi, N. Mahdi, M. A. BenAyed, M. Budagavi, V. Sze, M. Zhou,
CE8 Subset 5: Results on combination of JCTVC-E342 + JCTVC-E060
20216 Oscar Au, Jizheng Xu, Haoping Yu BoG report on Screen Content Coding (SCC)20217 Thomas Stockhammer, Christian Timmerer DASH Sequence of Elements in MPD
20218 Thomas Stockhammer, Alex Giladi, Miska Hannuksela
DASH: Subrepresentations for MPEG-2 TS Media Segments
20219 Vijay Chandrasekhar Contributions from Stanford University to the evaluation framework
20220 David Pope Evaluation of the MIRFlickr Distractor Data Set
20221 Stavros Paschalakis, Miroslaw Bober Comments on Stanford and Kentucky Datasets for CDVS Experiments
20222 J. Sole (Qualcomm), C. Auyeung (Sony), H. Sasai (Panasonic)
BoG report on the draft text for the combination of proposals JCTVC-E227, JCTVC-E338 and JCTVC-E344
20223 Roy YUE Enhancement on Switch Event Metrics20224 Youngkwon Lim Systems' Agenda
20225 J.Zhou Cross-check results for Samsung's proposal JCTVC-E381 from HiSilicon
20226 M. Narroschke (Panasonic), M. Ikeda (Sony)Results for a straight forward combination of parallel deblocking techniques JCTVC-E224 and item 2 of JCTVC-E181
20227 Daniele Alfonso(STMicro), Xing Wen(HKUST), BOG report on complexity assessment20228 Ye-Kui Wang On trick mode20229 Siwei Ma (Peking University) Anchor testing for MPEG Type-1 Video Coding
20230 Lidong Xu, Yi-jen Chiu, Wenhao Zhang, Hong Jiang
Cross-check result of MediaTek’s MV decimation for temporal prediction (JCTVC-E092)
20231 A. Abbas, J. Boyce Cross check of JCTVC-E492, Results on combination of JCTVC-E342 + JCTVC-E060
20232 J. Kim, M. Kim(KAIST), S. Cho(ETRI) Cross-check report of SKT/SKKU Deblocking Filter (JCTVC-E417)
20233Andrey Norkin, Kenneth Andersson, Keiichi Chono, In Suk Chong, Matthias Narroschke, Byengwoo Jeon, David Flynn, Teruhiko Suzuki
BoG report on subjective viewing test for deblocking filter proposals
20234 P. Topiwala, M. Budagavi, A. Fuldseth, R. Joshi, I.-K. Kim,
Description of Core Experiment 10 (CE10): Core Transform Design
20235 F Bossen Common test conditions and software reference configurations
20236 Joel Jung, Patrice Onno Description of Core Experiment CE1: Motion Data Storage Reduction
20237Andrey Norkin (Ericsson), Xun Guo (MediaTek), Byeungwoo Jeon (SKKU), Matthias Narroschke (Panasonic)
Description of CE12: Deblocking filtering
20238 Scalable enhancement requirements for HEVC20239 M. Budagavi (TI) Cross-check report of JCTVC-E266
20240 V. Sze, J. Chen, T. Nguyen, K. Panusopone, J. Sole,
Description of Core Experiment 11 (CE11): Coefficient scanning and coding
20241 T. Yamakage (Toshiba), Y. W. Huang (MediaTek), I. S. Chong (Qualcomm), T. Ikai
Description of CE8: Non-deblocking loop filtering
53
(Sharp), M. Narroschke (Panasonic), W. L. Lai (Samsung), A. Tabatabai (SONY), M. Budagavi (TI), F. Kossentini (eBrisk Video),
20242 Elena Alshina, Takeshi Chujoh Core Experiment 3: Motion Compensation Interpolation
20243 Nhut Nguyen, Xin Wang Text for MPD security protection
20244 R. Cohen, C. Yeo, R. Joshi, F. Fernandes Description of Core Experiment 7 (CE7): Additional Transforms
20245 C. Yeo (I2R) Cross-check report of proposal E494
20246 X. Wang, P. Wu Description of CE5: CAVLC Entropy Coding Improvements
20247 Xiaozhen Zheng, P. Bordes, P. Chen, I.-K Kim Description of CE2: Motion Partitioning and OBMC20248 ITU-T SG9 via SC 29 Secretariat Liaison Statement from ITU-T SG 9
20249 K. Sato [Sony], M. Budagavi [TI], M. Coban [Qualcomm], K. Chono [NEC], X. Li [MediaTek] Description of Core Experiment 4: Quantization
20250
Ali Tabatabai [Sony], Madhukar Budagavi [TI], Keiichi Chono [NEC], Mohammad Coban [Qualcomm], Andrew Segall [Sharp], Haoping Yu [Huawei],
Core Experiment 6: Intra Prediction Improvement
20251Y.-W. Huang (MediaTek), B. Bross (HHI), M. Zhou (TI), W.-J. Chien (Qualcomm), I.-K. Kim (Samsung)
Description of Core Experiment 9: MV Coding and Skip/Merge Operations
20252
I. S. Chong, M. Karczewicz (Qualcomm), C.-Y. Chen, C.-M. Fu, C.-Y. Tsai, Y.-W Huang, S. Lei (MediaTek), T. Yamakage, T. Chujoh, T. Watanabe (Toshiba)
Description and result of the combination of JCTVC-E323 and JCTVC-E046
20253FUNAHASHI Yosuke, KAWAMORI Masahito, Giuseppe PASCALE, HyeonJae Lee, Kazuyuki Ashimura, François Daoust
W3C Liaison to MPEG on DASH
20254 Dmytro Rusanovskyy, Miska Hannuksela Comments on proposed changes to CfP
54
Annex D – Output documents
No. Titlew11967 1-pager on Advanced User Interaction Interfacew11958 1-pager on BIFS for digital radiow11957 1-pager on Composite Fontw11961 1-pager on Contract Expression Languagew11963 1-pager on Digital Item Presentationw11964 1-pager on Dynamic Adaptive Streaming over HTTPw11969 1-pager on Elementary Servicesw11962 1-pager on Media Value Chain Ontologyw11968 1-pager on MPEG-M Architecturew11987 1-pager on MXM APIsw11971 1-pager on Open Access AFw11959 1-pager on Presentation and Modification of Structured Informationw11960 1-pager on Scene adaptationw11970 1-pager on Service Aggregationw11966 1-pager on Sub-track selection & switchingw12052 AHG on 3D Video Codingw12005 AHG on 3DG documents, software maintenance and core experimentsw11965 AHG on Application Formatw12026 AHG on Audio Visual Description Profilew12032 AHG on Compact Descriptors for Visual Searchw11897 AHG on Contract Expression Languagew11898 AHG on Dynamic Adaptive Streaming over HTTPw11975 AHG on Font Format Representationw12007 AHG on Graphics Tool Libraryw12030 AHG on Internet Video Coding Technologiesw12033 AHG on Low Complexity Video Codingw11918 AHG on MPEG File Formatsw12031 AHG on MPEG Frame Compatible (MFC) Stereo Codingw11990 AHG on MPEG Media Transportw11989 AHG on MPEG-7 Visualw12029 AHG on MPEG-H Visionw11979 AHG on MPEG-Mw11896 AHG on MPEG-V w12027 AHG on Multimedia Preservationw12006 AHG on Multi-Resolution 3D mesh Codingw11988 AHG on Reconfigurable Video Codingw12028 AHG on Study of HEVC Extensionw11991 AHG on Systems’ vision on new MPEG standardw12023 AHG on USACw12035 Applications and Requirements on 3D Video Coding
55
w12018 Audio for HEVCw12034 AVDP Annex for AVDP DAM (AVDP reference software)w12038 Call for Proposals for Compact Descriptors for Visual Searchw12036 Call for Proposals on 3D Video Coding Technologyw11907 Conformance assetsw11908 Content assetsw11951 DASH profiles under considerationw11993 Description of 3DG Core Experimentsw12037 Description of Exploration Experiments in 3D Video Codingw11984 Disposition of Comments on ISO/IEC 23002-4/PDAM 2
w11919 DoC on ISO/IEC 14496-12:2008/FPDAM 2 Support for sub-track selection & switching, post-decoder requirements, and color information
w12010 DoC on ISO/IEC 23003-1:2007/AMD 2/DCOR 2.2w11933 DoC on ISO/IEC CD 23006-1 Architecturew11935 DoC on ISO/IEC CD 23006-2 MXM APIw11938 DoC on ISO/IEC CD 23006-4 Elementary servicesw11940 DoC on ISO/IEC CD 23006-5 Service aggregationw12044 Draft Call for Proposals (CfP) for Internet Video Coding Technologies w12043 Draft Call for Proposals on MPEG Frame-compatible Enhancementw12047 Draft Context and Objectives for Scene Technology for Collaborative Applicationsw12024 Draft of request of subdivision of ISO/IEC 23001-8w12046 Draft Requirements for Scene Technology for Collaborative Applications w12039 Evaluation Framework for Compact Descriptors for Visual Search (Draft)w11895 Guide for WG 11 Meeting Hostsw11899 Guide to the MPEG Subversion Repositoryw11892 Guidelines for Electronic Distribution of MPEG M and N Documentsw12000 High Efficiency Video Coding (HEVC) Test Model 3 (HM 3) w12001 High Efficiency Video Coding (HEVC) Working Draft 3w12041 Introduction to MPEG Compact Descriptors for Visual Searchw12009 ISO/IEC 14496-3:2009/PDAM 3 Transport of Unified Speech and Audio Codingw12011 ISO/IEC 23003-1:2007/AMD 2/Cor 2w11973 Liaison statement template on DASH Profiles under considerationw11974 Liaison statement template on Multimedia Service Platform Technologyw11972 Liaison statement to 3GPP on Dynamic Adapative Streaming over HTTPw11978 Liaison statement to IEC TC 100 on RII w11977 Liaison statement to ISO/TC 223 on Video surveillance
w11986 Liaison Statement to ITU-T SG9 (3D Video Quality Assessment and Scalable View-range Representation
w11976 Liaison statement to SC 6 on MPEG Media Transportw11980 Liaison statement to W3C on DASHw12049 Liaison Statement to WG 1 on Visual Searchw11890 List of AHGs Established at the 96th Meeting in Geneva, Switzerlandw11888 List of Documents from the 96th Meeting in Geneva, Switzerlandw11912 List of errata items of ISO/IEC 13818-1:2007w11911 List of Organisations with which MPEG entertains liaisons
56
w11955 List of Youtube video demonstrating MPEG technologiesw11894 Meeting Notice of the 97th Meeting in Torino, Italyw12048 MPEG contribution and plans for Augmented Reality standardisationw11904 MPEG Standard Editorsw11901 MPEG Standardsw11903 MPEG work plan and time linew11994 Overview of MPEG-V Part 1 Architecturew11995 Overview of MPEG-V Part 2 Control informationw11996 Overview of MPEG-V Part 4 Virtual world object characteristicsw11997 Overview of MPEG-V Part 5 Data formats for interaction devicesw11998 Overview of MPEG-V Part 6 Common types and toolsw11999 Overview of MPEG-V Part 7 Conformance and reference softwarew11893 Press Release of the 96th Meeting in Geneva, Switzerlandw11891 Report of the 96th Meeting in Geneva, Switzerland
w11914 Request for ISO/IEC 13818-1:2007/AMD 8 Extensions for simplified carriage of MPEG-4 over MPEG-2
w11923 Request for ISO/IEC 14496-22/AMD 2 Additional script and language tagsw12008 Request for ISO/IEC 14496-3:2009/Amd 3
w11928 Request for ISO/IEC 23000-12/AMD 2 Compact representation of dynamic volume change and audio equalization
w12002 Request for ISO/IEC 23002-4:2010/AMD 3 Graphics Tool Library for Reconfigurable Multimedia Coding Framework
w11925 Request for subdivision of ISO/IEC 21000-20 Contract expression Languagew12045 Requirements for Internet Video Coding Technologiesw11889 Resolutions of the 96th Meeting in Geneva, Switzerlandw12019 Response to m19533, TC100/TA6w12020 Response to m19534, TC100w12021 Response to m19538, TC100/TA4w12051 Response to the liaison from COST IC1003 (QUALINET)w12025 Responses to USNBw11905 Schema assetsw12053 Short description of the Audio Visual Description Profilew11956 Short descriptionsw11906 Software assetsw11910 Standards under development for which a call for patent statements is issuedw12050 Statement of benefits from establishing a Category C liaison with w12015 Status and Workplan for USAC CEsw12013 Study on ISO/IEC 23003-3:201x/DIS of Unified Speech and Audio Coding
w11913 Study text of ISO/IEC 13818-1:2007/PDAM 7 Signaling of frame compatible and service compatible stereoscopic video
w11921 Study text of ISO/IEC 14496-12:2008/DAM 3 DASH support and RTP reception hint track processingw11927 Study text of ISO/IEC 23000-11/DAM 2 Signaling of additional composition type and profilesw11943 Study text of ISO/IEC CD 23007-2 Advanced user interaction interfacew11930 Study text of ISO/IEC DIS 23001-6 Dynamic Adaptive Streaming over HTTPw11944 Technologies under consideration for advanced user interaction interface
57
w11917 Technologies under Consideration for use of BIFS in Collaborative Applicationw11954 Technology under Considerations on MPEG Media Transportw11900 Terms of Referencew12042 Test Conditions and Evaluation Process for MFCw11915 Text of ISO/IEC 13818-1:2007/PDAM 8 Extensions for simplified carriage of MPEG-4 over MPEG-2
w11920 Text of ISO/IEC 14496-12:2008/FPDAM 2 Support for sub-track selection & switching, post-decoder requirements, and color information
w11924 Text of ISO/IEC 14496-22 PDAM 2 Additional script and language tags
w12004 Text of ISO/IEC 14496-27 PDAM 4, Conformance for efficient representation of 3D meshes with multiple attributes
w11992 Text of ISO/IEC 14496-5 PDAM 31 Reference Software for Efficient representation of 3D meshes with multiple attributes
w11981 Text of ISO/IEC 15938-6:2003/FDAM4 Reference Software for Video Signature Toolsw11982 Text of ISO/IEC 15938-7:2003/FDAM6 Conformance for Video Signature Tools
w11929 Text of ISO/IEC 23000-12/PDAM 2 Compact representation of dynamic volume change and audio equalization
w11985 Text of ISO/IEC 23002-4/DAM 2 Functional Units for AVC Progressive High Profilew11926 Text of ISO/IEC CD 21000-20 Contract Expression Languagew11934 Text of ISO/IEC DIS 23001-1 Architecturew11936 Text of ISO/IEC DIS 23006-2 MXM APIw11939 Text of ISO/IEC DIS 23006-4 Elementary servicesw11941 Text of ISO/IEC DIS 23006-5 Service aggregationw11952 Text of ISO/IEC FDIS 23005-7 Conformance and Reference Softwarew12014 Thoughts on profiles for Unified Speech and Audio Codingw12022 Unified Speech and Audio Coder Common Encoder Reference Softwarew11902 Unpublished standards at FDIS levelw11909 URI assetsw11916 Use Cases for Collaborative Applicationsw11922 WD 2.0 of ISO/IEC 14496-12:2008/AMD 4 MP4 files as a playlist using file tracksw11945 WD 5.0 of ISO/IEC 23005-1/AMD 1 Additional Use Casesw11946 WD 5.0 of ISO/IEC 23005-2/AMD 1 Additional Control Information and binary representationw11947 WD 5.0 of ISO/IEC 23005-3/AMD 1 Binary representationw11948 WD 5.0 of ISO/IEC FDIS 23005-4/AMD 1 Binary representation
w11949 WD 5.0 of ISO/IEC FDIS 23005-5/AMD 1 Additional sensors, interaction devices and binary representation
w11950 WD 5.0 of ISO/IEC FDIS 23005-6/AMD 1 Binary representationw11931 WD of DASH Implementation Guidelinew11983 WD of ISO/IEC 23001-4/Amd.1 CAL Extensionsw11932 WD of ISO/IEC 23001-7 Conformance and reference software for DASHw11937 WD of ISO/IEC DIS 23006-3 Conformance and Reference Softwarew11942 WD of ISO/IEC DIS 23006-6 Usage Guidelines on Elementary and aggregated services
w12003 WD1.0 of ISO/IEC 23002-4:2010/AMD 3 Graphics Tool Library for Reconfigurable Multimedia Coding Framework
w11953 Working Draft of MPEG Media Transportw12040 Workplan for CDVS AHGw12016 Workplan for USAC Common Encoder Reference Software
58
w12017 Workplan for USAC Verification Testw12012 Workplan on SAOC Conformance and Reference Software
59
Annex E – Requirements report
Source: Jörn Ostermann (Leibniz Universität Hannover)
Requirements documents approved at this meeting
No. Title12026 AHG on Audio Visual Description Profile12027 AHG on Multimedia Preservation12028 AHG on Study of HEVC Extension12029 AHG on MPEG-H Vision12030 AHG on Internet Video Coding Technologies12031 AHG on MPEG Frame Compatible (MFC) Stereo Coding12032 AHG on Compact Descriptors for Visual Search12033 AHG on Low Complexity Video Coding12034 AVDP Annex for AVDP DAM (AVDP reference software)12035 Applications and Requirements on 3D Video Coding12036 Call for Proposals on 3D Video Coding Technology12037 Description of Exploration Experiments in 3D Video Coding12038 Call for Proposals for Compact Descriptors for Visual Search12039 Evaluation Framework for Compact Descriptors for Visual Search (Draft)12040 Workplan for CDVS AHG12041 Introduction to MPEG Compact Descriptors for Visual Search12042 Test Conditions and Evaluation Process for MFC12043 Draft Call for Proposals on MPEG Frame-compatible Enhancement12044 Draft Call for Proposals (CfP) for Internet Video Coding Technologies 12045 Requirements for Internet Video Coding Technologies12046 Draft Requirements for Scene Technology for Collaborative Applications
12047 Draft Context and Objectives for Scene Technology for Collaborative Applications
12049 Liaison Statement to WG 1 on Visual Search12050 Statement of benefits from establishing a Category C liaison with 12051 Response to the liaison from COST IC1003 (QUALINET)12052 AHG on 3D Video Coding
Annex FMPEG-7 AVDPSeveral broadcasters requested a new profile for MPEG-7 covering several aspects of Audio, Video and Systems. The main functionality of this audiovisual description profile (AVDP) is describing the results of automatic media analysis with audio/video low-level features for audio-visual content. They are to be used for the archives of the broadcast industry. At this meeting, EBU presented several new users of this profile. A software for validating a description with respect to the profile became available. The current work plan foresees the amendment to be finalized in 11/2011.
The group created N12034 AVDP Annex for AVDP DAM (AVDP reference software). This document may be considered when National Bodies cast their vote on ISO/IEC
60
15938-9:2005/PDAM1. The XM software will be provided at the 97th meeting. The adhoc group N12026 AHG on Audio Visual Description Profile will work on AVDP topics until the 97th meeting.
DASHConsidering that the DASH FDIS is expected to be issued in July 2011, WG11 requests the participating companies to make their IPR declarations and relevant information available in a timely fashion, so that external organizations and consortia can consider such information in their decision-making process.
In addition to the profiles in the current DIS, four new profiles were discussed. M2TS Simple targets delivery of MPEG2 transport streams for live and on demand applications with a minimum restriction on flexibility. This profile would support a broad variety of MPEG-2 TS content. In order to simplify seamless switching M2TS Constrained again for both live and on demand content was proposed. For streaming of MP4 contents available in ISO-based file format, the profiles ISOBFF Basic On-Demand and ISOBFF Basic Live were proposed for on-demand streaming and live streaming, respectively. Sufficient company support still needs to be established. If possible, this support should include a demonstration of the functionality of the profile.
AudioNew profiles on USAC and HE-AAC V3 were proposed. Since these profile proposals included existing profiles from other MPEG audio standards, they propose a potential problem. So far, MPEG has only used MAFs to combine technologies from different standards. A potential policy that MPEG has followed so far without explicitly stating it, is to limit profiles to tools defined within the standard of the profile.
MPEG-HThe use of SVC is picking up in industry. It is expected that a scalable extension of HEVC would also be desirable. When SVC was standardized, some participants felt that a number of definitions within AVC were such that integration of the scalable extension was cumbersome in part. Therefore, an overlapping development of the current HEVC standard and its scalable extension might be desirable. In order to prepare for this development, requirements as well as context and objectives need to be defined. The adhoc group N12028 AHG on Study of HEVC Extension will work towards this goal. A CfP might be issued in January.
At this point, only HEVC is part of MPEG-H. A vision for the definition of a set of MEPG-H standards needs to be developed. This works starts within the group N12029 AHG on MPEG-H Vision.
Explorations
14.1 3D Video CodingThe test procedure including instructions of subjects, evaluation of subjects and selection of displays was checked during a dry run of the future subjective test during this meeting using facilities kindly provided by EPFL. This resulted in a further refinement of the CfP and related documents. The final rates for the test sequences required some minor modification that will be finalized during an editing period after this meeting.
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The 3DV evaluation will be carried out within the framework depicted in Figure 1. The quality of individual views will be evaluated objectively. Only the randomly selected stereo pairs and multi-view sets with synthesized views will be subjectively evaluated. Obviously, the rate for coding all components of a proposed data format will be considered.
Figure 1 Evaluation frame worked for 3DV
A CfP was issued at this meeting. Minor updates may be published at the 97th meeting. Anchor sequences are encoded using MVC and HEVC. Evaluation will be carried out prior to the 98th meeting. The call will be open to all technologies including AVC, MVC, HEVC and others. These technologies are separated into the two categories AVC-Compatible as well as HEVC-Compatible & Unconstrained. MPEG will decide on the use of the proposed techniques, i.e. technology proposed based on AVC might be used in the standard in order to adapt HEVC to 3DV.
The following documents were updated: N12035 Applications and Requirements on 3D Video Coding, N12036 Call for Proposals on 3D Video Coding Technology and N12037 Description of Exploration Experiments in 3D Video Coding. The adhoc group working on 3DV is N12052 AHG on 3D Video Coding.
14.2 Compact Descriptors for Visual Search (CDVS)Images are foreseen as input for visual search. The temporal extension of images also known as video will enable life interaction. N12041 Introduction to MPEG Compact Descriptors for Visual Search provides information on the applications and the context of this activity. Given that the databases for evaluation are available and most logistical issues are solved, MPEG issued a call for proposals N12038 Call for Proposals for Compact Descriptors for Visual Search. The evaluation process is available as a draft in N12039 Evaluation Framework for Compact Descriptors for Visual Search (Draft).
N12040 Workplan for CDVS AHG defines the work to be done until the 97th meeting in order to finalize the logistics of the test. Open issues are still software for evaluation, annotations for some databases and their cleanup. The adhoc group N12032 AHG on Compact Descriptors for Visual Search will work on these issues. Without the successful completion of the work plan, the call might become meaningless. MPEG sent N12049 Liaison Statement to WG 1 on Visual Search to WG1.
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14.3 MPEG Frame-Compatible Stereo Enhancement for AVC (MFC)The current popularity of stereoscopic video makes distribution using a frame-compatible stereoscopic 3D video service over AVC desirable. However, these solutions provide only half of the full spatial resolution for each channel. Transmission of an enhancement layer to achieve full resolution 3D video might be a solution to this issue. While there was a significant push and effort during the 95th meeting to issue a CfP at the 96th meeting, only two test sequences were available at this 96th meeting. At least four sequences are required. Furthermore, no evidence demonstrates that there is technology outperforming a solution based on existing SVC technology. Without evidence, no call will be issued.
In case MPEG decides to issue a CfP in the future, SVC and MVC will be used as anchors. Evaluation will be done on monoscopic displays. Since the proponents were not yet able to provide a sufficient set of test sequences, there is currently no prediction on a date for a possible CfP.
In any case, MPEG progressed this matter by issuing N12042 Test Conditions and Evaluation Process for MFC and N12043 Draft Call for Proposals on MPEG Frame-compatible Enhancement. The adhoc group N12031 AHG on MPEG Frame Compatible (MFC) Stereo Coding works on this activity.
14.4 AudioAs in several previous meetings, MPEG had a brainstorming session on future audio activities. Requirements focus on resolution of sound source localization, enhanced spatial audio for stereo displays as well as standardized down mixing. Potential technologies for HEVC audio may include SAOC and scene coding, especially concepts like Ambionics. The discussion is summarized in N12018 Audio for HEVC.
Young members of the audio and requirements group are encouraged to elaborate their ideas further. The audio group is encouraged to enlist more universities in their activities.
14.5 Low Complexity Video CodingLow complexity video coding might be potentially relevant especially for mobile and UHDTV devices. Spatial random access is a functionality currently not provided by standardized solutions.
MPEG received two video sequences from fastVDO that are high-quality, high-bit depth and high-rate 4:4:4. Members are encouraged to provide further test material. Especially sequences with Bayer-like patterns are sought. At this point, three companies are interested in this activity. At the 97th meeting, viewing of the sequences, anchors and evaluation of evidence that there is room for standardization given existing technology, is planned. A potential call is not expected in 2011. Evidence is expected at the 98th or 99th meeting the latest. Work is carried out within the adhoc group N12033 AHG on Low Complexity Video Coding.
14.6 Option-1 Licensable CodecsFor several meetings, MPEG had discussions on Option-1 licensable codecs. Especially small companies consider the per-stream licensing fees as cumbersome.
At the 95th meeting, MPEG decided to go forward with Type-1 standardization. The potential standard may consist of a Type-1 baseline video codec and additional functionalities that are Type-2 licensable like other MPEG technology. N12044 Draft Call for Proposals (CfP) for Internet Video
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Coding Technologies and N12045 Requirements for Internet Video Coding Technologies were issued. The current plan foresees the 98th meeting as the start of the standardization work. No progress was made with respect to the working guidelines for developing a Type-1 licensable codec.
The work is continued in the adhoc group N12030 AHG Internet Video Coding Technologies.
14.7 User Collaboration with BIFS LASeRCollaboration over networks is possible today. However, setting up and working in these collaborative environments and multi-user worlds is cumbersome due to complicated software systems and low performance of the systems. Especially media relevant to MPEG are not treated well. An extension of Bifs and LASeR such that they integrate well with these existing collaborative environments and their protocols is desirable. Unlike many years ago, when MPEG already targeted this application area, the basic protocols for collaborative environments are in place today such that MPEG can focus on its media expertise. N12046 Draft Requirements for Scene Technology for Collaborative Applications and N12047 Draft Context and Objectives for Scene Technology for Collaborative Applications were issued.
14.8 Miscellaneous
14.8.1 PreservationMPEG received input related to preservation of digital media content. It is assumed that codec technology will expire at the risk of losing contents. There are proposals to provide interfaces to preservation engines in order to eliminate this problem. The adhoc group N12027 AHG on Multimedia Preservation will work on this topic.
14.8.2 Augmented RealityJTC1 is requesting information on augmented reality. MPEG issued N12048 MPEG position paper for Augmented Reality.
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Annex G – Systems report
Source: Youngkwon Lim, Chairman
1 Output of the Meeting The main outputs of the meeting from the Systems Sub-group perspective are:
No. Title TBP Available EditorX 13818-1 Systems
11912
List of errata items of ISO/IEC 13818-1:2007 No 11/03/25 Sam
11913
Study text of ISO/IEC 13818-1:2007/PDAM 7 Signaling of frame compatible and service compatible stereoscopic video
No 11/03/25 Sam
11914
Request for ISO/IEC 13818-1:2007/AMD 8 Extensions for simplified carriage of MPEG-4 over MPEG-2
No 11/03/25 Cyril
11915
Text of ISO/IEC 13818-1:2007/PDAM 8 Extensions for simplified carriage of MPEG-4 over MPEG-2
No 11/04/15 Cyril
X 14496-11 Scene Description and Application Engine1191
6Use Cases for Collaborative Applications No 11/04/08 Jamie
11917
Technologies under Consideration for use of BIFS in Collaborative Application
No 11/04/08 Jamie
X 14496-12 ISO Base Media File Format1191
9DoC on ISO/IEC 14496-12:2008/FPDAM 2 Support for sub-track selection & switching, post-decoder requirements, and color information
No 11/03/25 Per
11920
Text of ISO/IEC 14496-12:2008/FPDAM 2.2 Support for sub-track selection & switching, post-decoder requirements, and color information
No 11/03/25 Per
11921
Study text of ISO/IEC 14496-12:2008/DAM 3 DASH support and RTP reception hint track processing
No 11/03/25 David
11922
WD 2.0 of ISO/IEC 14496-12:2008/AMD 4 MP4 files as a playlist using file tracks
No 11/03/25 David
X 14496-22 Open font format1192
3Request for ISO/IEC 14496-22/AMD 2 Additional script and language tags
No 11/03/25 Vlad
11924
Text of ISO/IEC 14496-22 PDAM 2 Additional script and language tags Yes 11/04/08 Vlad
X 21000-20 Contract Expression Language1192
5Request for subdivision of ISO/IEC 21000-20 Contract expression Language
No 11/03/25 Xin
11926
Text of ISO/IEC CD 21000-20 Contract Expression Language No 11/04/29 Xin
X 23000-11 Stereoscopic Video Application Format1192
7Study text of ISO/IEC 23000-11/DAM 2 Signaling of additional composition type and profiles
No 11/03/25 Kyungmo
X 23000-12 Interactive Music AF1192
8Request for ISO/IEC 23000-12/AMD 2 Compact representation of dynamic volume change and audio equalization
No 11/03/25 Yongwei
65
11929
Text of ISO/IEC 23000-12/PDAM 2 Compact representation of dynamic volume change and audio equalization
No 11/03/25 Yongwei
X 23001-6 Dynamic Adaptive Streaming over HTTP (DASH)1193
0Study text of ISO/IEC DIS 23001-6 Dynamic Adaptive Streaming over HTTP
No 11/04/09 Thomas S.
11932
WD of Conformance and reference software for DASH No 11/03/25 Thomas S.
11931
WD of DASH Implementation Guidelines No 11/03/25 Nhut
11951 DASH profiles under consideration No 11/03/25 Iraj12048 Request for new project No 11/03/25 Iraj
X 23001-7 Common encryption format for ISO base media file format1202
4Draft request of subdivision No 11/03/25 Dave
X 23006-1 Architecture1193
3DoC on ISO/IEC CD 23006-1 Architecture No 11/03/25 Xin
11934
Text of ISO/IEC DIS 23001-1 Architecture Yes 11/04/29 Xin
X 23006-2 MPEG extensible Middleware (MXM) API1193
5DoC on ISO/IEC CD 23006-2 MXM API No 11/03/25 Sergio
11936
Text of ISO/IEC DIS 23006-2 MXM API Yes 11/04/29 Sergio
X 23006-3 Conformance and Reference Software1193
7WD of ISO/IEC DIS 23006-3 Conformance and Reference Software No 11/04/29 Sergio
X 23006-4 Elementary Services1193
8DoC on ISO/IEC CD 23006-4 Elementary services No 11/03/25 Michael
11939
Text of ISO/IEC DIS 23006-4 Elementary services Yes 11/04/29 Michael
X 23006-5 Service Aggregation1194
0DoC on ISO/IEC CD 23006-5 Service aggregation No 11/03/25 Michael
11941
Text of ISO/IEC DIS 23006-5 Service aggregation Yes 11/04/29 Michael
X 23006-6 Usage Guidelines1194
2WD of ISO/IEC 23006-6 Usage Guidelines on Elementary and aggregated services
No 11/03/25 Victor
X 23007-2 Advanced User Interaction Interface1194
3Study text of ISO/IEC CD 23007-2 Advanced user interaction interface No 11/04/08 Seong
Yong1194
4Technologies under consideration for advanced user interaction interface No 11/04/08 Seong
YongX 23005-1 Architecture
11945
WD 5.0 of ISO/IEC 23005-1/AMD 1 Additional Use Cases No 11/04/08 Jean G.
X 23005-2 Control Information1194
6WD 5.0 of ISO/IEC 23005-2/AMD 1 Additional Control Information and binary representation
No 11/04/08 Seungju
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X 23005-3 Sensory Information1194
7WD 5.0 of ISO/IEC 23005-3/AMD 1 Binary representation No 11/04/08 Bumsuk
X 23005-4 Virtual World Object Characteristics1194
8WD 5.0 of ISO/IEC 23005-4/AMD 1 Binary representation No 11/04/08 Marius
X 23005-5 Data Formats for Interaction Devices 1194
9WD 5.0 of ISO/IEC 23005-5/AMD 1 Additional sensors, interaction devices and binary representation
No 11/04/08 Kyoungro
X 23005-6 Common Data Format1195
0WD 5.0 of ISO/IEC 23005-6/AMD 1 Binary representation No 11/04/08 Kyoungr
oX 23005-7 Conformance and Reference Software
11952
Text of ISO/IEC FDIS 23005-7 Conformance and Reference Software
No 11/03/25 Christian
X MPEG Media Transport1195
3Working Draft of MPEG Media Transport No 11/04/15 Kyungmo
11954
Technology under Considerations on MPEG Media Transport
No 11/04/15 Gerard
X Promotion1195
5List of Youtube video demonstrating MPEG technologies Yes 11/03/25 Young
11956
Short descriptions Yes 11/03/25 Young
11957
1-pager on Composite Font Yes 11/03/25 Vlad
11958
1-pager on BIFS for digital radio Yes 11/03/25 Cyril
11959
1-pager on Presentation and Modification of Structured Information Yes 11/03/25 Jihun
11960
1-pager on Scene adaptation Yes 11/03/25 Jaeyeon
11961
1-pager on Contract Expression Language Yes 11/03/25 Jaime
11962
1-pager on Media Value Chain Ontology Yes 11/03/25 Jaime
11963
1-pager on Digital Item Presentation Yes 11/03/25 Tiejun
11964
1-pager on Dynamic Adaptive Streaming over HTTP Yes 11/03/25 Iraj
11966
1-pager on Sub-track selection & switching Yes 11/03/25 Per
11967
1-pager on Advanced User Interaction Interface Yes 11/03/25 Jihun
11968
1-pager on MPEG-M Architecture Yes 11/03/25 Xin
11987
1-pager on MXM APIs Yes 11/03/25 Sergio
11969
1-pager on Elementary Services Yes 11/03/25 Michael
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11970
1-pager on Service Aggregation Yes 11/03/25 Sergio
11971
1-pager on Open Access AF Yes 11/03/25 Xin
X Assets and Standing Documents1190
5MPEG Schema Assets Updates No 11/03/25 Christian
11909
MPEG URIs and MIME Types No 11/03/25 Christian
X SVN support1189
9Guide to the MPEG Subversion Repository No 11/03/25 Christian
X Liaison1197
2Liaison statement to 3GPP on Dynamic Adapative Streaming over HTTP
No 11/03/25 Iraj
11973
Liaison statement template on DASH Profiles under consideration
No 11/03/25 Iraj
11974
Liaison statement template on Multimedia Service Platform Technology
No 11/03/25 Xin
11976
Liaison statement to SC 6 on MPEG Media Transport No 11/03/25 Young
11977
Liaison statement to ISO/TC 223 on Video surveillance No 11/03/25 Gero
11978
Liaison statement to IEC TC 100 on RII No 11/03/25 Xin
11980
Liaison statement to W3C on DASH No 11/03/25 Iraj
X Responses to National Bodies
12025
Responses to USNB No 11/03/25 Sam
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2 General Input Documents
2.1 AHG reports
Session Number Title Source DispositionsPlenary m19522 Ad Hoc on Scene
RepresentationJaeyeon Song, Cyril Concolato, Jean-Claude Dufourd
accepted
Plenary m19523 Ad Hoc on MPEG File Formats
David Singer, Per Frojdh accepted
Plenary m19524 Ad Hoc on Application Format
Kyuheon Kim, Kugjin Yun
accepted
Plenary m19525 Ad Hoc on Font Format Representation
Vladimir Levantovsky accepted
Plenary m19526 Ad Hoc on MPEG-M Xin Wang, Young Kwon Lim
accepted
Plenary m19527 Ad Hoc on MPEG-V Marius Preda acceptedPlenary m19528 Ad Hoc on Contract
Expression LanguageXin Wang, Jaime Delgado
accepted
Plenary m19529 Ad Hoc on Dynamic Adaptive Streaming over HTTP
Iraj Sodagar, David Singer, Youngkwon Lim
accepted
Plenary m19530 Ad Hoc on MPEG Media Transport
Youngkwon Lim, Christian Timmerer
accepted
All AHG reports are accepted.
2.2 General technical contributions
Session Number Title Source DispositionsPlenary m19531 Table of Replies on ISO/IEC
15938-12:2008/FDAM 1ITTF via SC 29 Secretariat
Noted
Plenary m19540 Table of Replies on ISO/IEC FDIS 23005-1
ITTF via SC 29 Secretariat
Noted
Plenary m19997 USNB Contribution: Request for new editions
A. G. Tescher for USNB Accepted (N12025)
Plenary m20126 Input contribution for DID extension
Teresa Andrade, Helder Castro, Edoardo Radica, Giuseppe Tropea
Noted
Plenarym20190
Draft text of the white paper on Composite Font Representation
Vladimir Levantovsky Accepted (N11957)
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2.3 Summary of discussionm19997 Agreed to have new editions. Plans are as follows:
13818-1 : ready to start a new edition including AMD 1~6, first draft will be ready by November meeting.
14496-12 : will start new edition with AMD 1 ~ 3 when AMD 3 is ready (July), doubt about the inclusion of COR4
m20126 This contribution observes that DID is missing representation of relationship between DIs. Using RDF/OWL is proposed. Detailed technical proposal will be ready by the next meeting.
2.4 Demo DASH with SVC (HHI)
2.5 FAQ.
2.6 AOBNone.
3 MPEG-2 Systems (13818-1)
3.1 Topics
3.1.1 ISO/IEC 13818-1:2007 AMD 5 Carriage of JPEG2000 over MPEG-2
3.1.2 ISO/IEC 13818-1:2007 AMD 6 Extension to AVC video descriptor and 70ignalling of operation points for MVC
3.1.3 ISO/IEC 13818-1:2007 AMD 7 Signalling of frame compatible and service compatible stereoscopic video
3.1.4 ISO/IEC 13818-1:2007 AMD 8 Simplified carriage of MPEG-4 over MPEG-2
3.2 Contributions
Session Number Title Source DispositionsMPEG-2 m19782 Proposed Study Text of
ISO/IEC 13818-1:2007/PDAM 7 - Signalling of stereoscopic video in MPEG-2 systems
Sam Narasimhan, Paul Haskell, Wade Wan
Accepted (N11913)
MPEG-2 m19999 Descriptor tag value availability
A. G. Tescher for USNB Accepted (N11915)
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MPEG-2 m20033 Clarifications for MPEG-4 over MPEG-2
Jean Le Feuvre, Cyril Concolato
Accepted (N11915)
MPEG-2 m20117 Updated signaling of stereoscopic video in MPEG-2 systems for service compatible stereoscopic service
TTA(Korea) Accepted (N11913)
3.3 Summary of discussionsm19782 Proposal for study of PDAM 7
Removal of stream type 0x24 Addition of Stereoscopic_video_info_descriptor Rename of arrangement_type to Stereo_video_format_type Removal of Stereoscopic_program_info_descriptor Removal of upsampling_factor from Stereoscopic_video_info_descriptor
m20117 This document describes updated signaling of service compatible stereoscopic video with redefinition of stream types and 2D_view_flag
m1999 USNB express concern about the shortage of available values for descriptor tag. It has been decided to introduce extension mechanism.
m20033 This contribution attempts at clarifying how MPEG-4 data can be synchronized with MPEG-2 data.
3.4 Action Points
4 MPEG-4 BIFS (14496-11)
4.1 Topics
4.1.1 Exploration- Remote and Collaborative work
4.2 Contributions
Session Number Title Source DispositionsScene m19765 Draft Requirements on
MPEG Scene Technology for Collaborative Applications
Jamie MARSHALL, Mihai MITREA, Bojan JOVESKI, Ludovico GARDENGHI, Françoise PRETEUX
Scene m19771 Collaboration Technology Mandate Report : Performance Issues
Bojan JOVESKI, Ludovico GARDENGHI, Mihai MITREA, Iain James
71
MARSHALL, Françoise PRETEUX
4.3 Summary of discussionsm19765The document was presented in a joint meeting with Requirements. It was clarified that the project does not want to define a collaboration protocol, but the support of collaboration protocols in MPEG scene formats.The new proposed requirements got pushed and a suggestion was made to make it more obvious what is the intended spec.The proponents were asked to provide a restriction of these requirements to the scene description formats changes, in order to provide a new version of the context and objectives document and a new version of the requirements (draft) document. The use of the word “collaborative” was also discussed, trying to improve the visibility and understandability of the activity.
m19771The document was presented. It presents the result of an action in the AHG mandate. The testing scenarios were explained in detail. After a first run and analysis, optimizations were done, with x5 improvements but losing the « real time » characteristic. The whole process got thoroughly discussed and pushed, with satisfactory answers: the use of X11 was criticized, and it was explained that the bias understood to be introduced by using X11 is actually application dependent. Other limitations were isolated as being dependent on the terminal software used.Follow ups are discussed: CFP, ad hoc, identification of requirements. Earlier contributions provided the background for a CfP. The remaining question is: what to standardize. This is answered in the requirements contribution below.
4.4 Action Points
5 MPEG-4 ISO Base File Format (14496-12)
5.1 Topics
5.1.1 ISO/IEC 14496-12:2008/AMD 2 Support for sub-track selection & switching, post-decoder requirements, and color information
5.1.2 ISO/IEC 14496-12:2008/AMD 3 DASH support and RTP reception hint track processing
5.1.3 ISO/IEC 14496-12:2008/AMD 4 MP4 files as a playlist using file tracks
5.2 Contributions
Session Number Title Source Dispositions
72
File m19532 Summary of Voting on ISO/IEC 14496-12:2008/FPDAM 2 and ISO/IEC 15444-12:2008/FPDAM 2
SC 29 Secretariat Finland, Japan, Sweden, UKAccepted (N11919)
File m20099 Comments on 14496-12:2008 DAM3
Miska M. Hannuksela Accepted (N11920)
File m20109 Random Access in 14496-12, the ISO Base Media File Format
David Singer Accepted(N11922)
File m20110 File Tracks (TuC) in 14496-12, the ISO Base Media File Format
David Singer Accepted (N11922)
File m19537 File Format-Support for Key Rotation
Sanjeev Verma, Bogyeong Kang
Accepted (N11921)
File m20169 Study on ISO/IEC 14496-12 DAM3
Takehiko Nakano, Mitsuhiro Hirabayashi
Accepted(N11921)
File m20186 Comments on Annex I in 14496-12:2008 DAM 3
Kevin Murray, Eyal Farkash, Eli Hibshoosh
Accepted (N11921)
5.3 Summary of discussionsm19532Thank you for the fine and detailed comments.On the restricted-video coding comments from Finland, we agree:
1) That the SEI box should be in Part 15; we will move it to the amendment of part 15, final ballot, when we issue that text. It has been reviewed here.
2) That we introduce the frame packing restricted scheme here, but we re-issue the comment ballot on this amendment, to allow both review of this technology and review of its alignment with the Stereo MAF (23000-11).
3) That we not do the file-format changes suggested that are not related to the restricted scheme (the documentation of the handling of frame-packed video when transformation is not mentioned).
With the documentation of the frame-packed scheme, we document that if it is used: track header width and height are after unpacking and sample scaling, for a single
view frame_count is 1 width and height in the sample entry are for the packed frame (because this is what
comes out of the decoder) the pixel aspect ratio box should document pixels which are ‘wide’ or ‘high’ for side-
by-side or top-bottom packing (inside the scheme information?)m19537Thank you. Accepted in principle, but without the extra data (which, if needed, could and should be in a new sample group with an identifying group type). Editors to incorporate into the study text.
m20099
73
Thank you for the nice C.8 material, which is much appreciated. Editors to check and incorporate.
Accepted to do the sample aux information typing, but we need a 4CC for common encryption (‘cenc’).
Yes, we introduce 8.16, with an introduction, for segments, and mention segments in the introduction (if appropriate). We also need an annex for the MIME registration of a segment. The actual mime type should be discussed at the co-located ad-hoc.
We will do a request for sub-division, common encryption, part of MPEG-B, with the support of Finland, Sweden, US, Israel, Germany, Japan, UK, Korea. File format editors to do the split after making the study, and supply as input to Torino.
m20169On sample auxiliary information, we should allow it anywhere it would be legal; for data references, that really is anywhere. For same-file, yes, we say ‘typically’ within a media-data box or box defined by a derived spec.
Yes, we should follow the sample groups in movie fragments and add the appropriate boxes to the appropriate headers.
Yes, we will change “counter block” to “cipher block” and make sure that we use counter, etc. correctly.
We don't think we can change the way that AES-CTR is applied without alignment with DECE, who use this scheme. But there are issues – this would cycle the blocks faster, which increases the decryption cost.
m20186Yes, we will document what other algorithm ID values mean, as suggested.
A number of people would like to work on partial encryption of other formats, and the signaling of partial encryption, before July. Co-ordination using the mp4-sys reflector is suggested.
20218 new SSIXAccepted with minor textual fixes. (ranges_size -> range_size, etc.).
m20109 Random Access in 14496-12, the ISO Base Media File FormatThe team really needs to analyze this further; did you miss a definition in amendment 3? We need good, file-format level, definitions, as indicated in the WD of Cor. More study, please.
m20110 File Tracks (TuC) in 14496-12, the ISO Base Media File FormatMore support and thought are still desired on this TuC, but thank you for these comments.
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5.4 Action Points
6 Contract Expression Language (21000-20)
6.1 Topics
6.1.1 ISO/IEC 21000-20 Contract Expression Language
6.2 Contributions
Session Number Title Source DispositionsMPEG-M
m20064 Contribution towards a MPEG-21 CEL CD
Jaime Delgado, VÃctor RodrÃguez
Accepted (N11926)
6.3 Summary of discussionsm20064Proposed text for CD.
6.4 Action Points
7 Stereoscopic Video AF (23000-11)
7.1 Topics
7.1.1 ISO/IEC 23000-11 AMD1 Conformance and Reference Software
7.1.2 ISO/IEC 23000-11 AMD2 Additional composition type
7.2 Contributions
Session Number
Title Source Disposition
AF m20144
Proposal on ISO/IEC 23000-11 Stereoscopic Video AF Amd.
Gun-Ill Lee, Jaeyeon Song, Kyungmo Park
Accepted (N11927)
75
7.3 Summary of discussions
M20144: proposed the extra composition types of side-by-side and top-bottom for full resolution. New composition types for full resolution in the case of side-by-side and top-bottom formats are accepted.
7.4 Action Points .
8 Interactive Music AF (23000-12)
8.1 Topics
8.1.1 ISO/IEC 23000-12 AMD1 Conformance and Reference Software
8.1.2 ISO/IEC 23000-12 AMD2 Compact representation of dynamic volume change and audio equalization
8.2 Contributions
Session Number Title Source DispositionsAF m19981 Study of ISO/IEC 23000-
12/WD Compact representation of dynamic volume change and audio equalization
Yongwei Zhu, Ti Eu Chan, Inseon Jang
Accepted (N11929)
8.3 Summary of discussionsm19981: Reviewed and accepted the edited version of WD. The PDAM2 with minor editor changes will be produced in this meeting.
8.4 Action Points
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9 Dynamic Adaptive Streaming over HTTP (23001-6)
9.1 Topics
9.1.1 ISO/IEC 23001-6 Dynamic Adaptive Streaming over HTTP (DASH)• Manifest• Delivery format for ISO BM FF• Delivery format for MPEG-2 TS• Pofiles• Collaboration with 3GPP
9.1.2 ISO/IEC 23001-6/AMD 1
9.2 Contributions
Session Number Title Source DispositionsDASH m19834 DASH TSL: Lightweight TS
profileAlex Giladi, Gerard Fernando, Nhut Nguyen, Hojin Ha
Accepted (N11951)
DASH m19923 DASH: Proposal on URL anchors for DASH MPD (EE-AMP)
Yasuaki Tokumo, Maki Takahashi, Shuichi Watanabe,
Noted (TuC)
DASH m19975 DASH: Advanced trick mode support in MPEG-2 TS segments
Alex Giladi, Ali Jerbi, Arturo Rodriguez, Gerard Fernando
Accepted (N11930)
DASH m19998 USNB Contribution: Commercial deployment of MPEG DASH
A. G. Tescher for USNB Accepted (N12025)
DASH m20022 Proposal on DASH: Timing and Live Services (TLS)
Zhao Yu, Li ZhuPing, Gerard Fernando
Noted
DASH m20055 Comments on DASH DIS Cyril Concolato, Jean Le Feuvre, Romain Bouqueau
Accepted (N11930)
DASH m20056 On MPEG-2 TS indexing with the sidx box
Cyril Concolato, Jean Le Feuvre, Romain Bouqueau
Deferred
DASH m20059 Response to DASH EE#14 - Timing and Live Service
Truong Cong Thang, Jin Young Lee, Jung Won Kang, Seong-Jun Bae, Soon-heung Jung, Sang Taick Park
Noted
DASH m20060 Additional Features for DASH's Representation
Truong Cong Thang, Jin Young Lee, Jung Won Kang, Seong-Jun Bae, Soon-heung Jung, Sang Taick Park
Deferred
DASH m20061 DASH Profiles Per Fröjdh, Torbjörn Accepted
77
Einarsson, Thorsten Lohmar
(N11951)
DASH m20079 Comments on DASH Ingo Kofler, Christopher Müller, Stefan Lederer, Christian Timmerer
Accepted (N11930)
DASH m20080 Session Mobility for DASH: Input to the EE on AMP
Christopher Müller, Christian Timmerer
Noted (TuC)
DASH m20081 DASH: ContentDescriptorType
Mark Watson, Thomas Stockhammer
Deferred
DASH m20082 Text amendments related to MPEG-2 TS in Annex-B of DASH DIS
Waqar Zia, H J Lee, Kyungho Kim
Accepted (N11930)
DASH m20083 Input to the EE on DASH QM
Robert Kuschnig, Christopher Müller, Stefan Lederer, Christian Timmerer
Accepted (N11930)
DASH m20087 Considerations on MPEG-2 TS in DASH
Accepted (N11930)
DASH m20088 On DASH Quality Metrics Thomas Stockhammer NotedDASH m20090 Guidelines for Timing and
Live Services in DASHThomas Stockhammer Accepted
(N11930)DASH m20091 EE Report on CDN Thomas Stockhammer NotedDASH m20092 Summary of 3GPP
Discussions and Agreements on Compatibility
Thomas Stockhammer Accepted (N11930)
DASH m20093 On Content Protection for Live Services in DASH
Thomas Stockhammer, Per Fröjdh
Deferred
DASH m20095 DASH: Definition of a simple On-Demand Profile
Imed Bouazizi, Miska M. Hannuksela
Accepted (N11951)
DASH m20096 DASH: Additional Derived QM Metrics
Imed Bouazizi Accepted (N11930)
DASH m20097 DASH: QM Reporting Initiation
Imed Bouazizi Accepted (N11930)
DASH m20098 DASH EE DTS: MPEG2-TS hint tracks
Miska M. Hannuksela Accepted (N11930)
DASH m20102 DASH CE#6: rewind trick mode support
Tingfang Tang, Ye-Kui Wang, Zhenyu Wu
Accepted (N11930)
DASH m20103 DASH CE#14: server events siganling
Ye-Kui Wang, Tingfang Tang, Zhenyu Wu
Noted
DASH m20104 DASH: Huawei comments on DIS
Peiyu Yue, Ye-Kui Wang, Tingfang Tang, Shaobo Zhang
Accepted (N11930)
DASH m20105 DASH CE#6 (TRA) report Ye-Kui Wang Accepted (N11930)
DASH m20108 Proposed Simple MPEG-2 David Singer Accepted
78
Transport DASH profile (N11951)DASH m20114 DASH: Enhancement on QM
MetricsPeiyu YUE Accepted
(N11930)DASH m20115 Packaging and Delivery of
Index and Initialization Information for DASH Streaming of MPEG2-TS Content
Ali Begen, Ali Jerbi, Alex Giladi
Noted
DASH m20118 DASH DTS: In-band Carriage of MPEG-2 TS indexing information
Zhijie Zhao, Hojin Ha, Nhut Nguyen, Alex Giladi
Noted
DASH m20119 Proposal for MPEG-2 Transport Stream Extensions for DASH
Zhijie Zhao, Alex Giladi, Joern Ostermann
Noted
DASH m20120 DASH: Clarification on timeline for external periods
Peiyu YUE Accepted (N11930)
DASH m20136 MPEG-2 parameter definitions for DASH support and beyond
Alex Giladi Noted
DASH m20137 DASH: Content descriptors for multiplexed representations
Alex Giladi Deferred
DASH m20155 DASH: CDN Selection Mark Watson NotedDASH m20158 Profile Considerations for
DASH: How To Divide The Infinite Profile Space into Few Useful Profiles
Kilroy Hughes, Harry Pyle, Iraj Sodagar, John Simmons
Accepted (N11951)
DASH m20159 Switchable Track Fragment Profile: A DASH Profile for General MP4 Live and On Demand Services
Kilroy Hughes, Harry Pyle, Quintin Burns
Accepted (N11951)
DASH m20161 Server Event Signalling in DASH
Thomas Stockhammer Noted
DASH m20176 DASH MPD Security Protection EE Report
Nhut Nguyen, Xin Wang Accepted (N11930)
DASH m20178 Comments on DIS text of DASH specification
Nhut Nguyen, Jaeyeon Song, Sungryeul Rhyu, Kyungmo Park
Accepted (N11930)
DASH m20191 MPEG DASH for progressive download
Sylvain KERVADEC Deferred
DASH m20206 Comments on DASH Quality Metrics
Gunnar Heikkilä Noted
DASH m20217 DASH Sequence of Elements in MPD
[email protected], Christian Timmerer
Noted
DASH m20218 DASH: Subrepresentations Thomas Stockhammer, Accepted
79
for MPEG-2 TS Media Segments
Alex Giladi, Miska Hannuksela
(N11930)
9.3 Summary of discussions
m19975, m20087, m20098: (superceded by m20218);
a modified solution for sub-rep signaling for both M2TS and ISOBFF. RSDIS. Will be a new document by Thomas.)
m19998, m20115: Random access: no agreement,:Both provide M2TS additional information for better RA, stream switching, and trick modes.. Can be solved with restriction on M2TS when creating content, i.e. can be addressed by defining a M2TS profile. Therefore, no immediate need for adopting a solution. This part of EE will be closed and a new activity may start for supporting delivering of time-varying metadata that improves media engine behavior in random access, switching and other functionalizes. This time-varying data should address the intended functionality of this part of EE.
m20082: Annex B: moved to Study DIS.
m20119: In-band signaling: Needs extension on M2TSWe need to discuss the server event signaling. If this functionality is addressed by server event, then we don’t need an amendment to M2TS. The needs for server events to be discussed.
m20087: Codec signaling and MIME type, will be discussed as part of Study DIS.
m20102, m20105: comparison of two approaches.Create a document for removing TrickMode element and moving up @alternateplayoutrate to Rep + new attribute for Intra-only ->RFDIS. Document by YK)
m20083: tresponse-last: recommended for Study DIS (RSDIS) (new document by Christian). No agreement on the inter-gap or fairness metrics.
m20088: report on the metrics. Recommend not take any additional metrics.
m20096: proposal on derived metrics.All metrics besides Averagethrouput are RSDIS (new document by Miska).Clarification on some definitions.
80
They are not derived metrics.
m20097: Quality reporting signaling in MPD. This is RSDIS.(new docuemt by Miska)
m20114: proposed 3 parameters to improve QMs. “level” is RSDIS. New document by ROIYUE. (Subject to any change in subrepresentation syntax.)
m20206: will be discussed in collocated meeting with 3GPP.
m20176: proposal on EE. One new element: signature + XML Encryption for MPD. Two “may” sentences for MPD General Clause and an signature example for Annex F are RSDIS. New Document by Nhut.
m19923:W3C Media Fragments URI for anchors. Some restriction and extensions. W3C Media Fragments is Working Draft.(Technologies under consideration.)
m20080: an XML for state of playout session for transferring it from one device to another device.no need for MPD extensions. (Technologies Under Consideration)
m20059: - add constraint to bandwidth definition for continuous playback cross period- Pairs of bandwidth-minimumbuffer for each periodAlternatively use playoutcurve.- Minbuffertime at RAP
m20090: review of timing model of DIS. Proposals- Guideline: start a task in ad-hoc for guideline for the next meeting.- move minbuffertime from period to MPD- maximum segment durationRSDIS
- maximum segment duration at MPD (will be provided by Thomas)-Remove minBuffertime of Period level (thomas)
m20103: signaling event using a box.
m20161: - event signaling in HTTP response.o Pragma header-Event signaling solution using pragma header sounds promising. Needs more study and bring justification for use case. If solved bring it as NB comment.
81
m200923GPP asks for keeping its namespace, but maintained by MPEG.RSDIS: Change the MIME type to what 3GPP is asking. Media Segment MIME type in MPD. (Thomas)
Comparison Table for profile proposalsM2TS ISOBFF
AZS light AZS Simple
Apple Qualcomm Ericsson Basic Ericsson Nokia Microsoft
Un-multiplexed X X XMultiplexed X X X X X X XLive X X X X X X XOn Demand X X X X X XMultiple Segs X X X X X X X XInitialization Segs X X X X ?Self-Initialized Segs X X X X XAligned Segs X X X X X - X XAligned Subseg X - - XBitstreamswitchingFlag=true X - XCons Duration Segs X * X X X X - X XStart with RAP X X - X XSidx X X X (1)Multiple Period X X X X X X X XMin # of RAPS 1 in seg ? 0 in seg 0 in seg XExplicit URI X X X X X X X XTemplate based URI X X X X X X X X XByte ranges for media Segs XXlink is not required X X X X X X X X XSubsets not permitted X X X X X X X X XReps in Group element X X XReps in Period X X X X X X X
Profile CandidatesM2TS ISOBFF
Constrained Simple Basic On Demand Basic LiveUn-multiplexed X XMultiplexed X X X XLive X X XOn Demand X X XSingle Period only allowedInitialization Segs X XSelf-Initialized Segs X X X XAligned Segs is required X X XAligned Subseg is required X X**BitstreamswitchingFlag is required to be true
X
Segment Timeline support are allowedStart with RAP X XSidx X X (front) X (front)
82
Multiple Period X X X XMin # of RAPS 1 in subseg 0 in seg 1 in subsegment 1 in
subsegmentExplicit URI X X X XTemplate based URI X X X XByte ranges for media Segs not permitted
X
Xlink is not required X X X XSubsets not permitted X X X XReps in Group element X X XReps in Period X X X XMPD Update is not permitted X
Each feature will be drafted in terms of either “is required” or “is not permitted” and we review again on Thursday.
The profile candidates will be included in Study DIS and will be sent to various external organizations for provide their feedback and further enhanced them. National Bodies will provide their feedback through the commenting with DIS ballot. (** need to be further discussed.)
m19998Action: A MPEG resolution to “emphasize the need for IPR declarations and relevant information to be made available in a timely fashion, so that external organizations and consortia can take such information into consideration in their decision-making process.”
m20060, m20081, m20093, m20137, m20191New technology proposals. These contributions will be reviewed at the next meeting.
9.4 Action Points
10 Conformance and Ref. SW. for DASH (23001-7)
10.1 Topics
10.1.1 ISO/IEC 23001-7 Conformance and reference software for DASH
10.2 Contributions
Session Number Title Source DispositionsDASH m20044 Implementation of DASH
ConformanceMarkus Waltl, Christian Timmerer
Deferred
DASH m20054 Proposal for DASH Conformance
Cyril Concolato Accepted (N11932)
83
DASH m20094 On DASH Compliance Thomas Stockhammer Deferred
10.3 Summary of discussions
10.4 Action Points
11 MPEG-M Architecture (23006-1)
11.1 Topics
11.1.1 ISO/IEC 23006-1 Architecture
11.2 Contributions
Session Number
Title Source Disposition
MPEG-M m20065
Implementation of the AIT Use Cases with the current version of MPEG-M
VÃctor RodrÃ-guez, Jaime Delgado
Noted
MPEG-M m20152
Usage scenario for adaptive application using RequestContent of MPEG-M
Kyung Won Kim, Jae Won Moon, Tae-Beom Lim, Seok-Pil Lee(KETI), Kyoungro Yoon, Min-Uk Kim(Konkuk University)
Accepted (N11942)
MPEG-M m20181
Late Comments on ISO/IEC CD 23006-1 [2nd Edition]
SC 29 Secretariat Accepted(N11942)
MPEG-M m20166
Additional Use Case for MPEG-M based on Sensory Information
Bum Suk, Accepted (N11942)
11.3 Summary of discussionsm20065Analysis of the coverage of the current standards (CD) against to the examples provided in the CfP.
84
m20152Proposed two scenario for adaptive applications using RequestContent in IPTV environment.
m20181KNB propose two options for enhancement of the standard: One is to include the usage scenario section in the MPEG-M Part 1: Architecture; The other is to start a separate part for the usage scenario and implementation guidelines (for example, Part 6: Usage Scenarios or Guidelines) as in the case with the MPEG-7 Part 8: Extraction and use of MPEG-7 descriptions.
m20166Proposed additional use cases for MPEG-M based on Sensory Information
11.4 Action Points
12 MPEG-M Elementary Services (23006-4)
12.1 Topics
12.1.1 ISO/IEC 23006-4 Elementary services
12.2 Contributions
Session Number Title Source DispositionsMPEG-M
m20038 Austrian NB comments on Study of ISO/IEC CD 23006-4 2nd edition
Michael Grafl, Christian Timmerer, (on behalf of ANB)
Accepted (N11938)
MPEG-M
m20039 Editor's Input on Study of ISO/IEC CD 23006-4 2nd edition
Michael Grafl, (on behalf of the editors)
Accepted(N11939)
MPEG-M
m20182 Late Comments on ISO/IEC CD 23006-4 [2nd Edition]
SC 29 Secretariat Accepted(N11938)
12.3 Summary of discussions
12.4 Action Points
85
13 MPEG-M Service Aggregation (23006-5)
13.1 Topics
13.1.1 ISO/IEC 23006-5 Service Aggregation
13.2 Contributions
Session Number Title Source DispositionsMPEG-M
m20040 Austrian NB comments on Study of ISO/IEC CD 23006-5
Michael Grafl, Christian Timmerer, (on behalf of ANB)
Accepted(N11940)
MPEG-M
m20041 Editor's Input on Study of ISO/IEC CD 23006-5
Michael Grafl, (on behalf of the editors)
Accepted(N11941)
13.3 Summary of discussions
13.4 Action Points
14 Advanced User Interaction Interface (23007-2)
14.1 Topics
14.1.1 Advanced User Interaction Interface
14.2 Contributions
Session Number Title Source DispositionsScene m20014 Proposed Study Text of CD
23007-2Seong Yong Lim, Injae Lee, Sanghyun Park, Jihun Cha, Youngkwon Lim
Accepted (N11943)
14.3 Summary of discussionsm20014Proposed improvements of CD.
86
14.4 Action Points
15 MPEG-V Architecture (23005-1)
15.1 Topics
15.1.1 ISO/IEC 23005-1 MPEG-V Architecture
15.2 Contributions
Session Number
Title Source Dispositions
MPEG-V m19675
Study for the binary representation of UTF-8
Sang-Kyun Kim, Yong Soo Joo
15.3 Summary of discussionsRefer to 3DG meeting report.
15.4 Action Points
16 Sensory Information (23005-3)
16.1 Topics
16.1.1 ISO/IEC 23005-3:201x/AMD 1 Binary representation
16.2 Contributions
Session Number Title Source DispositionsMPEG-V m20138 Hand based Interaction for
intuitive manipulationJae-Joon Han, SeungJu Han, ByungIn Yoo, Changkyoo Choi, Dusik Park
MPEG-V m20141 Binary representation for Bio-sensed Information
Seungju Han, Jae-Joon Han, Wonchul Bang, James D.K. Kim
MPEG-V m20142 Binary representation for Gas & Dust sensed
Jae-Joon Han, Seungju Han, Wonchul Bang,
87
information James D.K. KimMPEG-V m20143 Binary representation for
Bend sensor capability and sensed information
Jae-Joon Han, SeungJu Han, Wonchul Bang, James D.K. Kim
MPEG-V m20195 Proposed modification for multi interaction point, gaze tracking and wind sensors
Seong Yong Lim, Injae Lee, HeeKyoung Lee, Jihun Cha, YoungKwon Lim,
16.3 Summary of discussionsm20138The document was presented, with a focus on possible merge into the proposed study document. There was a discussion on userID and confidence. userID is for multiplayer games. confidence is relevant for the gesture, not for the quality of the sensor.A decision emerged to go for a unification by designing a common base from geometric and symbolic, plus the notion of « steady » or « dynamic », and expressing all 5 classes of sensors with this common base.It was discussed whether it was appropriate for such thoroughly changed text to go into a study ? The decision was deferred to the next systems plenary.
Refer to 3DG meeting report for other contributions.
16.4 Action Points
17 Conformance and reference software (23005-7)
17.1 Topics
17.1.1 ISO/IEC 23005-5 Reference Software
17.2 Contributions
Session Number Title Source DispositionsMPEG-V m19536 Summary of Voting on
ISO/IEC FCD 23005-7SC 29 Secretariat
MPEG-V m19951 Reference software of binary representation for color correction device command
Sang-Kyun Kim, Yong Soo Joo, Jin-Seo Kim, Maeng-Sub Cho, Bon-Ki Koo
MPEG-V m20042 Editor's Input on MPEG-V Markus Waltl, Christian
88
Conformance and Reference Software
Timmerer (on behalf of editors)
MPEG-V m20043 Austrian NB comments on ISO/IEC Study of FCD 23005-7
Christian Timmerer, Markus Waltl
17.3 Summary of discussionsRefer to 3DG meeting report.
17.4 Action Points
17.5 Summary of discussions
17.6 Action Points
18 Exploration – MMT
18.1 Topics• Transport- and file format friendly stream format • Cross layer optimization between video and transport layer• Error resilience for MPEG streams• Conversion between transport mechanisms • Content adaptation to different networks
18.2 Contributions
Session Number
Title Source Dispositions
MMT m19544
Functionalities for MMT Layers
Seong-Jun Bae, Jin Young Lee, Jung Won Kang, Soon-heung Jung, Sang Taick Park
Accepted (N11954)
MMT m19920
Updated MMT CfP response Gerard Fernando, Zhao Yu, Li ZhuPing
Accepted (N11954)
MMT m19989
Review of w11792 Youngkwon Lim (on behalf of AHG)
Accepted (N11954)
89
MMT m20012
Proposal of modifications to Advanced Transport Scheme regarding MMT
Shuichi Aoki, Hiroyuki Hamada, Katsunori Aoki, Kiyoharu Aizawa
Accepted (N11954)
MMT m20016
Considerations on Hybrid delivery support on MPEG Media Transport (MMT)
Shuichi Watanabe, Yasuaki Tokumo, Maki Takahashi,
Accepted (N11954)
MMT m20025
Updated MMT CfP response Yongju Cho, Jihun Cha Accepted (N11954)
MMT m20086
Comments on MMT TuC evaluation process
Jin Young Lee, Seong-Jun Bae, Jung Won Kang, Soon-heung Jung, Sang Taick Park
Accepted (N11954)
MMT m20193
Slides presented to MMT AhG re FN and AVB
[email protected] John Grant
Noted.
18.3 Summary of discussions
m19544Reviewed during the Tokyo AHG meeting. Refer m19989
m19989Revised version of TuC as a result of Tokyo AHG meeting
m19920 This contribution provides more detailed information and revised text of ZTE submission to MMT CfP.
Clarification of using SSRC for content insertion Detailed syntax and semantics of toc Revised proposal on ARQ
TuC will be updated with this contribution accordingly.
m20025 This contribution proposes side information to better understand underlying network conditions
Signal to Noise Ratio Number of background traffic
Proposed parameters will be included in the TuC.
m20016 This contribution is for further clarification of m19194. Two parameters proposed for delivery session description for hybrid scenario. Extension of DASH MPD in m19194 was an example of using these parameters
Source URL for multicast/broadcast transport, Available start time for multicast/broadcast transport, Anchor point for synchronization among unicast/multicast/broadcast transport
Proposed parameters is already included in the TuC.
90
m20086 This contribution proposes clarification of review process.
to put higher priority on Delivery area than others. to define roles of each layer to define functionalities of each layer
TuC will be improved accordingly.
m200193Slides regarding SC6 work on FN, also other non-IP network standardisation activity.
18.4 Action Points
19 Liaison
19.1 List of input liaison letters
Session Number Title Source DispositionsPlenary m19535 ISO/TC 223's 2nd CD: ISO
CD 22311.2ISO/TC 223 via SC 29 Secretariat
SystemVideosurveillanceGero
Plenary m20187 Liaison document from TC223/WG5 to SC29/WG11
Didier Nicholson SystemVideosurveillanceGero
DASH m20131 Liaison Response From DECE on DASH and ISOBMFF Amendment
Scott Fierstein SystemDASHIraj
Plenary m20146 IEC CD 62698 IEC TC 100 via SC 29 Secretariat
SystemRIIXin
MMT m19951 Liaison Statement from JTC 1/SC 6/WG 7 JTC 1/SC 6 via SC 29 Secretariat
Liaison Statement from JTC 1/SC 6/WG 7 JTC 1/SC 6 via SC 29 Secretariat
SystemFuture NetworkYoung
Plenary m20160 Liaison from SMPTE Hans Hoffman SystemSMPTE 2052 Timed Text and GraphicsStandardKilroy
DASH m20189 Liaison Statement from 3GPP
3GPP via SC 29 Secretariat
SystemDASH
91
m20160 SMPTE Liaison on Timed Text etc.
Thank you. We will not reply immediately, but allow systems experts time to study this material. Should we develop an encapsulation, or should it be ‘owned’ by SMPTE? Or perhaps one could see the SMPTE or W3C formats as the text representation of a format used in MP4 files. We hope that expert study will not only clarify the technical issues, but also suggest what action, if any, is appropriate where.
19.2 List of output liaison letters
Cf. Liaison output.
20 Resolutions of Systems
Cf. WG11 resolution.
21 Action Plan
21.1
92
22 References
22.1 Timeline of standards under development
Pr
Pt
Edit.
Project Description CfP WD
CDDCO
RPDA
M
DISFPDA
MDAM
FDISFDA
MCOR
2 1 2007
AMD5 Transport of JPEG2000 09/07
09/10 10/07 11/01
2 1 2007
AMD6 MVC operation point descriptor 09/07
09/10 10/07 11/01
2 1 2007
AMD7 Signalling of stereoscopic video 10/10
11/01 11/07 12/01
2 1 2007
AMD8 Simplified 4on2 11/01
11/03 11/07 12/01
4 4 2004
AMD40
Conformance for BIFS ExtendedCore2D Profile
10/10 11/01 11/07
4 5 2001
AMDxx
AVC File Format Ref. Soft TBS
4 5 2001
AMDxx
SVC File Format Ref. Soft TBS
4 5 2001
AMDxx
MVC File Format Ref. Soft TBS
4 5 2001
AMD29
Reference software for PMSI for LASeR
10/07 11/01 11/07
4 5 2001
AMD30
Rference software for BIFS ExtendedCore2D Profile
10/07 11/01 11/07
4 12
2008
COR4 Minor corrections 10/07 11/01
4 12
2008
AMD2 Sub-track selection & switching 10/01 10/07 11/07
4 12
2008
AMD3 DASH support & RTP reception hint track processing
10/01 11/01 11/07
4 12
2008
COR5 Minor corrections 11/01
4 12
2008
AMD4 MP4 file as a playlist 11/01
4 15
2010
COR1 Minor corrections 10/07 11/01
4 15
2010
AMD1 Sub-track definition 10/07 11/01 11/07
4 22
AMD2 Additional script tags 11/01
11/03 11/07 12/01
4 28
2008
1st Composite Font Format 10/07
10/10
11/01 11/07 12/01
93
7 12
2008
AMD2 Semantic enhancement 09/07
09/10 10/07 11/01
21
2 2005
AMD1.
Presentation element 08/10
09/04 10/07 11/01
21
4 2006
AMD2.
Protection of Presentation Information
08/10
09/04 10/07 11/01
21
8 2008
AMD2 MVCO Reference Software 10/07 11/01 11/07
21
20
200x
1st ed. Contract Expression Language 10/07
10/10 11/01 11/07
A 9 2008
AMD1/COR1
Minor correction 10/07 11/01
A 11
2009
AMD2 Additional composition type 09/07
10/07 11/01 11/07
A 12
2010
AMD1 IM AF Ref. SW and Conformance
10/01 10/07 11/01
A 12
2010
AMD2 Compact representation of dynamic volume change
11/01
11/03 11/07 12/01
B 6 200x
1st ed. Dynamic Adaptive Streaming over HTTP
10/04
10/07
10/10 11/01 11/07
B 6 200x
1st ed. DASH conformance & reference 11/01
11/07 11/11 12/07
M 1 200x
2nd ed. Architecture 10/10 11/03 11/07
M 2 200x
2nd ed. MXM APIs 10/10 11/03 11/07
M 3 200x
2nd ed. Reference SW & Conformance 11/03
11/07 11/11 12/07
M 4 200x
2nd ed. Elementary Service Protocol 10/07
10/10 11/03 11/07
M 5 200x
2nd ed. Service Aggregation 10/07
10/10 11/03 11/07
M 6 200x
1st ed. Use Cases 11/03
11/07 11/11 12/07
U 1 2010
AMD1 Widget Extension 10/10 11/03 11/07
U 2 200x
1st ed. Advanced User Interaction Interface
11/01 11/07 12/01
U 3 200x
1st ed. Conf. & Ref. SW 08/10
09/04
10/01 10/07 11/01
V 1 200x
AMD1 Streaming Support 10/07
11/03 11/07 12/01
V 2 200x
AMD1 Additional Control Information 10/07
11/03 11/07 12/01
V 3 200x
AMD1 Binary representation 10/07
11/03 11/07 12/01
V 4 200x
AMD1 Binary representation 10/07
11/03 11/07 12/01
V 5 200 AMD1 Additional sensors and 10/0 11/03 11/07 12/01
94
x interaction devices 7V 7 200
x200x Conformance testing and
reference software09/02
10/01 10/07 11/03
22.2 Standing Documents
Pr Pt Documents No. Meeting1 1 MPEG-1 White Paper – Multiplex Format N7675 05/07 Nice1 1 MPEG-1 White Paper – Terminal Architecture N7676 05/07 Nice1 1 MPEG-1 White Paper – Multiplexing and
SynchronizationN7677 05/07 Nice
2 1 MPEG-2 White Paper – Multiplex Format N7678 05/07 Nice2 1 MPEG-2 White Paper – Terminal Architecture N7679 05/07 Nice2 1 MPEG-2 White Paper – Multiplexing and
SynchronizationN7680 05/07 Nice
2 11 MPEG-2 White Paper – MPEG-2 IPMP N7503 05/07 Poznan4 1 MPEG-4 White Paper – MPEG-4 Systems N7504 05/07 Poznan4 1 MPEG-4 White Paper – Terminal Architecture N7610 05/10 Nice4 1 MPEG-4 White Paper – M4MuX N7921 06/01 Bangkok4 1 MPEG-4 White Paper – OCI N8148 06/04 Montreux4 6 MPEG-4 White Paper – DMIF N8149 06/04 Montreux4 11 MPEG-4 White Paper – BIFS N7608 05/10 Nice4 12 MPEG-4 White Paper – ISO File Format N8150 06/04 Montreux4 14 MPEG-4 White Paper – MP4 File Format N7923 06/01 Bangkok4 15 MPEG-4 White Paper – AVC FF N7924 06/01 Bangkok4 13 White Paper on MPEG-4 IPMP N7505 05/07 Poznan4 13 MPEG IPMP Extensions Overview N6338 04/03 München4 17 White Paper on Streaming Text N7515 05/07 Poznan4 18 White Paper on Font Compression and Streaming N7508 05/07 Poznan4 20 Presentation Material on LASER N6969 05/01 Hong-
Kong4 20 White Paper on LASeR N7507 05/07 Poznan4 22 White Paper on Open Font Format N7519 05/07 Poznan7 1 MPEG-7 White Paper - MPEG-7 Systems N7509 05/07 Poznan7 1 MPEG-7 White Paper – Terminal Architecture N8151 06/04 Montreux21 9 MPEG-21 White Paper – MPEG-21 File Format N7925 06/01 BangkokA X MPEG Application Format Overview N9421 07/10 ShenzhenA X MAF Overview Document N9840 08/04
ArchampsA X MAF Overview Presentation N9841 08/04
Archamps
95
B X MPEG-B White Paper – BinXML N7922 06/01 BangkokE X MPEG Multimedia Middleware Context and
ObjectivesN6335 04/03 München
E X 1rst M3W White paper N7510 05/07 PoznanE X 2nd M3W White Paper : Architecture N8152 06/04 MontreuxE X Tutorial on M3W N8153 06/04 MonreuxE X M3W White Paper : Multimedia Middleware
ArchitectureN8687 06/10 Hanzhou
E X M3W White Paper : Multimedia API N8688 06/10 HanzhouE X M3W White Paper : Component Model N8689 06/10 HanzhouE X M3W White Paper : Resource and Quality
ManagementN8690 06/10 Hanzhou
E X M3W White Paper : Component Download N8691 06/10 HanzhouE X M3W White Paper : Fault Management N8692 06/10 HanzhouE X M3W White Paper : System Integrity
ManagementN8693 06/10 Hanzhou
96
22.3 Mailing Lists Reminder
Topic Information Kindly Hosted by
General Systems List
Reflector : [email protected]: http://lists.uni-klu.ac.at/mailman/listinfo/gen-sysArchive: http://lists.uni-klu.ac.at/mailman/private/gen-sys/
Alpen-Adria-
Universität Klagenfurt
File Format
Reflector : [email protected]: http://lists.uni-klu.ac.at/mailman/listinfo/mp4-sysArchive: http://lists.uni-klu.ac.at/mailman/private/mp4-sys/
Alpen-Adria-
Universität Klagenfurt
Scene Representati
on
Reflector : [email protected]: http://lists.uni-klu.ac.at/mailman/listinfo/mpeg-laserArchive: http://lists.uni-klu.ac.at/pipermail/mpeg-laser/
Alpen-Adria-
Universität Klagenfurt
Application Format
Reflector : [email protected]: http://lists.uni-klu.ac.at/mailman/listinfo/maf-sysArchive: http://lists.uni-klu.ac.at/mailman/private/maf-sys/
Alpen-Adria-
Universität Klagenfurt
MPEG-M
Reflector: mpeg-m @lists.uni-klu.ac.at Subscribe: http://lists.uni-klu.ac.at/mailman/listinfo /mpeg- m Archive: http://lists.uni-klu.ac.at/mailman/private/ mpeg-m
Alpen-Adria-
Universität Klagenfurt
MPEG-V
Reflector: [email protected]: http://lists.uni-klu.ac.at/mailman/listinfo/metaverseArchive: http://lists.uni-klu.ac.at/mailman/private/metaverse/
Alpen-Adria-
Universität Klagenfurt
MPEG Media
Transport
Reflector: [email protected]: http://mailhost.tnt.uni-hannover.de/mailman/listinfo/mmt
University of Hannover
DASH
Reflector: dash@ lists.uni-klu.ac.atSubscribe: http://lists.uni-klu.ac.at/mailman/listinfo/dash
Alpen-Adria-
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97
22.4 Latest References and Publication StatusReference on the ISO Web Site : http://www.itscj.ipsj.or.jp/sc29/open/29view/29n9270c.htm
Pr Pt Standard No. Date Status Doc. With Purpose ISO Award
2 1 ISO/IEC 13818-1:2000 (MPEG-2 Systems 2nd Edition) 00/12 Published N/A Proposed2 1 ISO/IEC 13818-1:2000/COR1 (FlexMux Descr.) N3844 01/01 Pisa Consolidate
dN/A N/A
2 1 ISO/IEC 13818-1:2000/COR2 (FlexMuxTiming_ descriptor) N4404 01/12 Pattaya Consolidated
N/A N/A
2 1 ISO/IEC 13818-1:2000/Amd.1 (Metadata on 2) & COR1 on Amd.1 N5867 03/07 Trondheim
Consolidated
N/A Proposed
2 1 ISO/IEC 13818-1:2000/Amd.2 (Support for IPMP on 2) N5604 03/03 Pattaya Consolidated
N/A N/A
2 1 ISO/IEC 13818-1:2000/Amd.3 (AVC Carriage on MPEG-2) N5771 03/07 Trondheim
Consolidated
N/A Proposed
2 1 ISO/IEC 13818-1:2000/Amd.4 (Metadata Application CP) N6847 04/10 Palma Consolidated
N/A N/A
2 1 ISO/IEC 13818-1:2000/Amd.5 (New Audio P&L Sig.) N6585 04/07 Redmond
Consolidated
N/A N/A
2 1 ISO/IEC 13818-1:2000/COR3 (Correction for Field Picture) N6845 04/10 Palma Consolidated
N/A N/A
2 1 ISO/IEC 13818-1:2000/COR4 (M4MUX Code Point) N7469 05/07 Poznan Consolidated
N/A N/A
2 1 ISO/IEC 13818-1:2000/COR5 (Corrections related to 3rd Ed.) N7895 06/01 Bangkok
Consolidated
N/A N/A
2 1 ISO/IEC 13818-1:2007 (MPEG-2 Systems 3rd Edition) Published N/A TBP2 1 ISO/IEC 13818-1:2007/Amd.1 (Transport of Streaming text) N8369 06/07
KlagenfurtPublished N/A TBP
2 1 ISO/IEC 13818-1:2007/Amd.2 (Carriage of Auxialiry Video Data) N8798 07/01 Marrakech
Published N/A TBP
2 1 ISO/IEC 13818-1:2007/Cor.1.2 (Reference to AVC Specification) N9365 07/10 Published N/A TBP
98
Shenzhen2 1 ISO/IEC 13818-1:2007/Cor.3 N1093
709/10 Xian COR ITTF to be published
2 1 ISO/IEC 13818-1:2007/Amd.3 (SVC in MPEG-2 Systems) N10058
08/07 Hannover
Published N/A
2 1 ISO/IEC 13818-1:2007/Amd.3/Cor.1 N10938
09/10 Xian COR ITTF to be published
2 1 ISO/IEC 13818-1:2007/Amd.4 (Transport of Multiview Video) N10745
09/07 London FDAM ITTF to be published
2 1 ISO/IEC 13818-1:2007/Amd.5 (Transport of JPEG2000) N11708
11/01 Daegu FDAM ITTF TBP
2 1 ISO/IEC 13818-1:2007/Amd.6 (Extension to AVC descriptor) N11710
11/01 Daegu FDAM ITTF TBP
2 11 ISO/IEC 13818-1:2003 (IPMP on 2) N5607 03/03 Pattaya Published N/A Proposed4 1 ISO/IEC 14496-1 (MPEG-4 Systems 1st Ed.) N2501 98/10 Atl. City Consolidate
dN/A Done
4 1 ISO/IEC 14496-1/Amd.1 (MP4, MPEG-J) N3054 99/12 Hawaii Consolidated
N/A Done
4 1 ISO/IEC 14496-1/Cor.1 N3278 00/03 Noordwijk.
Consolidated
N/A N/A
4 1 ISO/IEC 14496-1:2001 (MPEG-4 Systems 2nd Ed.) N3850 01/01 Pisa Consolidated
N/A N/A
4 1 ISO/IEC 14496-1:2001/Amd.1 (Flextime) Consolidated
N/A Done
4 1 ISO/IEC 14496-1:2001/Cor.1 N4264 01/07 Sydney Consolidated
N/A N/A
4 1 ISO/IEC 14496-1:2001/Cor.2 N5275 02/10 Shangai Consolidated
N/A N/A
4 1 ISO/IEC 14496-1:2001/Cor.3 N6587 04/07 Redmond
Consolidated
N/A N/A
4 1 ISO/IEC 14496-1:2001/Amd.2 (Textual Format) N4698 02/03 Jeju Island
Consolidated
N/A N/A
4 1 ISO/IEC 14496-1:2001/Amd.3 (IPMP Extensions) N5282 02/10 Consolidate N/A N/A
99
Shanghai d4 1 ISO/IEC 14496-1:2001/Amd.4 (SL Extension) N5471 02/12 Awaji Consolidate
dN/A N/A
4 1 ISO/IEC 14496-1:2001/Amd.7 (AVC on 4) N5976 03/10 Brisbanne
Consolidated
N/A N/A
4 1 ISO/IEC 14496-1:2001/Amd.8 (ObjectType Code Points) N6202 03/12 Hawaii Consolidated
N/A N/A
4 1 ISO/IEC 14496-1:200x/Amd.1 (Text Profile Descriptors) N7229 05/04 Busan Consolidated
N/A N/A
4 1 ISO/IEC 14496-1:200x/Cor4 (Node Coding Table) N7473 05/07 Poznan Consolidated
N/A N/A
4 1 ISO/IEC 14496-1 (MPEG-4 Systems 3rd Ed.) N5277 02/10 Shanghai
Consolidated
N/A Proposed
4 1 ISO/IEC 14496-1:200x/Amd.1 (Text Profile Descriptors) N7229 05/04 Busan Consolidated
N/A N/A
4 1 ISO/IEC 14496-1:200x/Cor.1 (Clarif. On audio codec behavior) N8117 06/04 Montreux
Consolidated
N/A N/A
4 1 ISO/IEC 14496-1:200x/Amd.2 (3D Profile Descriptor Extensions) N8372 06/07 Klagenfurt
Consolidated
N/A N/A
4 1 ISO/IEC 14496-1:200x/Cor.2 (OD Dependencies) N8646 06/10 Hangzhou
Consolidated
N/A N/A
4 1 ISO/IEC 14496-1:200x/Amd.3 (JPEG 2000 support in Systems) N8860 07/01 Marrakech
Consolidated
N/A N/A
4 1 ISO/IEC 14496-1 (MPEG-4 Systems 4th Ed.) N10943
09/10 Xian Published N/A
4 1 ISO/IEC 14496-1:2010/Amd.1 (Usage of LASeR in MPEG-4 systems and Registration Authority for MPEG-4 descriptors)
N11248
10/04 Dresden Published N/A N/A
4 4 ISO/IEC 14496-1:200x/Amd.17 (ATG Conformance) N8861 07/01 Marrakech
Published N/A N/A
4 4 ISO/IEC 14496-1:200x/Amd.22 (AudioBIFS v3 conformance) N9295 07/07 Lausanne
Published N/A N/A
4 4 ISO/IEC 14496-1:200x/Amd.23 (Synthesized Texture conformance) N9369 07/10 Shenzhen
Published N/A N/A
4 4 ISO/IEC 14496-1:200x/Amd.24 (File Format Conformance) N9370 07/10 Published N/A N/A100
Shenzhen4 4 ISO/IEC 14496-1:200x/Amd.25 (LASeR V1 Conformance) N9372 07/10
ShenzhenPublished N/A N/A
4 4 ISO/IEC 14496-1:200x/Amd.26 (Open Font Format Conf.) N9815 08/04 Archamps
Published N/A N/A
4 4 ISO/IEC 14496-1:200x/Amd.27 (LASeR Amd.1 Conformance) N9816 08/04 Archamps
Published N/A N/A
4 4 ISO/IEC 14496-1:200x/Amd.37 (Additional File Format Conformance)
N10750
09/07 London Published N/A
4 5 ISO/IEC 14496-1:200x/Amd.12 (File Format) N9020 07/04 San Jose Published ITTF to be published N/A4 5 ISO/IEC 14496-1:200x/Amd.16 (SMR Ref. Soft) N9672 08/01 Antalya Published ITTF to be published N/A4 5 ISO/IEC 14496-1:200x/Amd.17 (LASeR Ref. Soft) N9674 08/01 Antalya Published ITTF to be published N/A4 5 ISO/IEC 14496-1:200x/Amd.28 (LASeR Adaptation Ref. Soft) N1156
610/10 Guangzhou
FDAM Editor TBP
4 6 ISO/IEC 14496-6:2000 Published N/A N/A4 8 ISO/IEC 14496-8 (MPEG-4 on IP Framework) N4712 02/03 Jeju Published N/A Proposed4 11 ISO/IEC 14496-11 (MPEG-4 Scene Description 1st
Edition) N6960 05/01
HongKongPublished N/A Proposed
4 11 ISO/IEC 14496-11/Amd.1 (AFX) N5480 02/12 Awaji Consolidated
N/A N/A
4 11 ISO/IEC 14496-11/Amd.2 (Advanced Text and Graphics) N6205 03/12 Hawaii Consolidated
N/A N/A
4 11 ISO/IEC 14496-11/Cor.1 N6203 03/12 Hawaii Consolidated
N/A N/A
4 11 ISO/IEC 14496-11/Cor.3 Valuator/AFX related correction N6594 04/07 Redmond
Consolidated
N/A N/A
4 11 ISO/IEC 14496-11/Amd.3 Audio BIFS Extensions N6591 04/07 Redmond
Consolidated
N/A Proposed
4 11 ISO/IEC 14496-11/Amd.4 XMT and MPEG-J Extensions N6959 05/01 HongKong
Consolidated
N/A N/A
4 11 ISO/IEC 14496-11/Cor.3 (Audio BIFS Integrated in 3rd Edition) N7230 05/04 Busan Consolidated
N/A N/A
101
4 11 ISO/IEC 14496-11/Cor.5 (Misc Corrigendum) N8383 06/07 Klagenfurt
Published N/A N/A
4 11 ISO/IEC 14496-11/Amd.5 Symbolic Music Representation
N8657 06/10 Hangzhou
Published N/A TBP
4 11 ISO/IEC 14496-11/Cor.6 (AudioFx Correction) N9021 07/04 San Jose Published N/A N/A4 11 ISO/IEC 14496-11/Amd.6 Scene Partitioning N1024
708/10 Busan Published N/A TBP
4 11 ISO/IEC 14496-11/Amd.7 ExtendedCore2D Profile N11251
10/04 Dresden FDAM SC29
4 12 ISO/IEC 14496-12 (ISO Base Media File Format) N5295 02/10 Shanghai
Published N/A Proposed
4 12 ISO/IEC 14496-12/Amd.1 ISO FF Extension N6596 04/07 Redmond
Consolidated
N/A N/A
4 12 ISO/IEC 14496-12/Cor.1 (Correction on File Type Box) N7232 05/04 Busan Consolidated
N/A N/A
4 12 ISO/IEC 14496-12/Cor.2 (Miscellanea) N7901 06/01 Bangkok
Consolidated
N/A N/A
4 12 ISO/IEC 14496-12/Amd.1 (Description of timed metadata)
N8659 06/10 Hangzhou
Consolidated
N/A N/A
4 12 ISO/IEC 14496-12/Cor.3 (Miscellanea) N9024 07/04 San Jose Consolidated
N/A N/A
4 12 ISO/IEC 14496-12/Amd.2 (Flute Hint Track) N9023 07/04 San Jose Consolidated
N/A N/A
4 12 ISO/IEC 14496-12 (ISO Base Media File Format 3rd edition)
N Published
4 12 ISO/IEC 14496-12/Cor.1 N10250
08/10 Busan COR N/A N/A
4 12 ISO/IEC 14496-12/Cor.2 N10441
09/02 Lausanne
COR N/A N/A
4 12 ISO/IEC 14496-12/Amd.1 General improvements including hint tracks, metadata support, and sample groups
N10580
09/04 Maui FDAM N/A N/A
4 12 ISO/IEC 14496-12/Cor.3 N1075 09/07 London COR N/A N/A
102
34 12 ISO/IEC 14496-12/Cor.4 N1172
311/01 Daegu COR ITTF N/A
4 13 ISO/IEC 14496-13 (IPMP-X) N5284 02/10 Shanghai
IS ITTF to be published Proposed
4 14 ISO/IEC 14496-14:2003 (MP4 File Format) N5298 02/10 Shanghai
Published N/A Proposed
4 14 ISO/IEC 14496-14:2003/Cor.1 (Audio P&L Indication) N7903 06/01 Bangkok
Published N/A N/A
4 14 ISO/IEC 14496-14:2003/Amd.1 Handling of MPEG-4 audio enhancement layers
N11138
10/01 Kyoto Published N/A
4 15 ISO/IEC 14496-15 (AVC File Format) N5780 03/07 Trondheim
Published N/A Proposed
4 15 ISO/IEC 14496-15/Amd.1 (Support for FREXT) N7585 05/10 Nice FDAM ITTF Final Text Editing
N/A
4 15 ISO/IEC 14496-15/Cor.1 N7575 05/10 Nice COR ITTF N/A4 15 ISO/IEC 14496-15/Cor.2 (NAL Unit Restriction) N8387 06/07
KlagenfurtCOR ITTF N/A
4 15 ISO/IEC 14496-15/Amd.2 (SVC File Format Extension) N9682 08/01 Antalya FDAM ITTF N/A4 15 ISO/IEC 14496-15 (AVC File Format 2nd edition) N1113
910/01 Kyoto Published N/A Proposed
4 15 ISO/IEC 14496-15:2010/Cor.1 N11728
11/01 Daegu COR ITTF N/A
4 17 ISO/IEC 14496-17 (Streaming Text) N7479 05/07 Poznan FDAM ITTF TBP4 18 ISO/IEC 14496-18 (Font Compression and Streaming) N6215 03/12 Hawaii Published N/A Proposed4 18 ISO/IEC 14496-18/Cor.1 (Misc. corrigenda and
clarification)N8664 06/10
HangzhouCOR ITTF N/A
4 19 ISO/IEC 14496-19 (Synthesized Texture Stream) N6217 03/12 Hawaii Published N/A Proposed4 20 ISO/IEC 14496-20 (LASeR & SAF) N7588 05/10 Nice Consolidate
dN/A TBP
4 20 ISO/IEC 14496-20/Cor.1 (Misc. corrigenda and clarification)
N8666 06/10 Hangzhou
Consolidated
N/A N/A
103
4 20 ISO/IEC 14496-20/Amd.1 (LASeR Extension) N9029 07/04 San Jose Consolidated
N/A N/A
4 20 ISO/IEC 14496-20/Cor.2 (Profile Removal) N9381 07/10 Shenzhen
Consolidated
N/A N/A
4 20 ISO/IEC 14496-20/Amd.2 (SVGT1.2 Support) N9384 07/10 Shenzhen
Consolidated
N/A N/A
4 20 ISO/IEC 14496-20 (LASeR & SAF 2nd edition) N Published N/A TBP4 20 ISO/IEC 14496-20/Amd.1 SVGT1.2 support N Published N/A N/A4 20 ISO/IEC 14496-20/Amd.2 Adaptation N1075
909/07 London Published N/A N/A
4 20 ISO/IEC 14496-20/Amd.3 PMSI N10954
09/10 Xian Published N/A N/A
4 20 ISO/IEC 14496-20/Cor. 1 N11376
10/07 Geneva COR ITTF N/A
4 22 ISO/IEC 14496-22 (Open Font Format) N8395 06/07 Klagenfurt
Published N/A TBP
4 22 ISO/IEC 14496-22 (Open Font Format 2nd edition) N Published N/A TBP4 22 ISO/IEC 14496-20/Amd.3 PMSI N1095
409/10 Xian Published N/A N/A
7 1 ISO/IEC 15938-1 (MPEG-7 Systems) N4285 01/07 Sydney Published N/A Done7 1 ISO/IEC 15938-1/Amd.1 (MPEG-7 Systems Extensions) N6326 04/03 Munich Published N/A N/A7 1 ISO/IEC 15938-1/Cor.1 (MPEG-7 Systems Corrigendum) N6328 04/03 Munich Published N/A N/A7 1 ISO/IEC 15938-1/Cor.2 (MPEG-7 Systems Corrigendum) N7490 05/07 Poznan Published N/A N/A7 1 ISO/IEC 15938-1/Amd.2 (BiM extension) N7532 05/10 Nice Published N/A N/A7 2 ISO/IEC 15938-2 (MPEG-7 DDL) N428
801/07 Sydney Published N/A Done
7 7 ISO/IEC 15938-7/Amd.2 (Fast Access Ext. Conformance) N8672 06/10 Hangzhou
Published N/A N/A
7 12 ISO/IEC 15938-12 MPEG Query Format N9830 08/04 Archamps
Published N/A N/A
7 12 ISO/IEC 15938-12/Cor.1 N1045 09/02 Published N/A N/A
104
2 Lausanne7 12 ISO/IEC 15938-12/Cor.2 N1095
909/10 Xian Published N/A N/A
7 12 ISO/IEC 15938-12/And.1 Ref, SW and flat metadata output N FDAM SC29 N/A7 12 ISO/IEC 15938-12/And.2 Semantic enhancement N1173
411/01 Daegu FDAM ITTF TBP
21 2 ISO/IEC 21000-2 (DID)21 2 ISO/IEC 21000-2:2005/Amd.1Presentation Element N117
3611/01 Daegu FDAM ITTF TBP
21 4 ISO/IEC 21000-2 (IPMP)21 4 ISO/IEC 21000-2:2005/Amd.1Protection of Presentation
ElementN11738
11/01 Daegu FDAM ITTF TBP
21 5 ISO/IEC 21000-5 (Open Release Content Profile) N9687
08/01 Antalya Published N/A TBP
21 9 ISO/IEC 21000-9 (MPEG-21 File Format) N6975
05/01 HongKong
Published N/A Done
21 9 ISO/IEC 21000-9/Amd.1 (MPEG-21 Mime Type) N9837
08/04 Archamps
Published N/A Done
21 15 ISO/IEC 21000-15 (Security in Event Reporting) N9839
08/04 Archamps
Published N/A TBP
21 16 ISO/IEC 21000-16 (MPEG-21 Binary Format) N7247
05/04 Busan Published N/A TBP
21 19 ISO/IEC 21000-19 (Media Value Chain Ontology) N11146
10/01 Kyoto Publsihed N/A TBP
A 4 ISO/IEC 23000-4 (Musical Slide Show MAF) N9037
07/04 San Jose Consolidated
N/A TBP
A 4 ISO/IEC 23000-4 (Musical Slide Show MAF 2nd Ed.) N9843
08/04 Archamps
FDIS ITTF TBP
A 4 ISO/IEC 23000-4 Amd.1 Conformance & Reference Software
N N/A TBP
A 4 ISO/IEC 23000-4 Amd.2 Conformance & Reference N N/A TBP
105
Software for Protected MSS MAFA 6 ISO/IEC 23000-6 (Professional Archival MAF) N TBPA 6 ISO/IEC 23000-6 Amd.1 Conformance and Reference
SoftwareN TBP
A 7 ISO/IEC 23000-7 (Open Access MAF) N9698
08/01 Antalya FDIS ITTF TBP
A 7 ISO/IEC 23000-7 Amd.1 Conformance and Reference Software
N TBP
A 8 ISO/IEC 23000-8 (Portabe Video AF) N9853
08/04 Archamps
FDIS ITTF TBP
A 9 ISO/IEC 23000-9 (Digital Multi. Broadcasting MAF) N9397
07/10 Shenzhen
FDIS ITTF TBP
A 9 ISO/IEC 23000-9/Cor.1 (Digital Multi. Broadcasting MAF)
N9854
08/04 Archamps
Published TBP
A 9 ISO/IEC 23000-9/Amd.1 (Conformance & Reference SW)
N FDIS SC29 TBP
A 9 ISO/IEC 23000-9/Amd.1/Cor. 1 N11742
11/01 Daegu COR ITTF N/A
A 10 ISO/IEC 23000-10 (Video Surveillance AF) N9397
07/10 Shenzhen
FDIS ITTF TBP
A 10 ISO/IEC 23000-11/Amd.1 Conformance & Reference SW N Published TBPA 11 ISO/IEC 23000-11 (Stereoscopic video MAF) N939
707/10 Shenzhen
FDIS ITTF TBP
A 11 ISO/IEC 23000-11/Cor.1 N Published TBPA 11 ISO/IEC 23000-11/Amd.1 Conformance and Reference
softwareN11574
10/10 Guangzhou
FDAM Editor
A 12 ISO/IEC 23000-11 (Interactive Music AF) N Published TBPA 12 ISO/IEC 23000-11/Amd. 1 Conformance & Reference
SW.N11746
11/01 Daegu FDAM ITTF TBP
B 1 ISO/IEC 23001-1 (XML Binary Format) N7597
05/10 Nice FDIS ITTF TBP
106
B 1 ISO/IEC 23001-1/Cor.1 (Misc. Editorial and technical clar.)
N8680
06/10 Hangzhou
COR ITTF N/A
B 1 ISO/IEC 23001-1/Cor.2 (Misc. Editorial and technical clar.)
N9049
07/04 San Jose COR ITTF N/A
B 1 ISO/IEC 23001-1/Amd.1 (Reference Soft. & Conf.) N8886
07/01 Marrakech
FDAM ITTF N/A
B 1 ISO/IEC 23001-1/Amd.1 (Exten. On encoding of wild cards)
N9296
07/07 Lausanne
PDAM ITTF to be published N/A
B 2 ISO/IEC 23001-2 (Fragment Request Unit) N9051
07/04 San Jose FDIS ITTF TBP
B 3 ISO/IEC 23001-3 (IPMP XML Messages) N9416
07/04 San Jose FDIS ITTF TBP
E 1 ISO/IEC 23008-1 Architecture N8892
07/01 Marrakech
FDAM ITTF N/A
E 2 ISO/IEC 23008-2 Multimedia API N8893
07/01 Marrakech
FDAM ITTF N/A
E 3 ISO/IEC 23008-3 Component Model N8894
07/01 Marrakech
FDAM ITTF N/A
E 4 ISO/IEC 23008-4 Ressource & Quality Management N8895
07/01 Marrakech
FDAM ITTF N/A
E 5 ISO/IEC 23008-5 Component Download N9053
07/04 San Jose FDAM ITTF N/A
E 6 ISO/IEC 23008-6 Fault Management N9054
07/04 San Jose FDAM ITTF N/A
E 7 ISO/IEC 23008-7 System Integrity Management N9055
07/04 San Jose FDAM ITTF N/A
E 8 ISO/IEC 23008-7 Reference Software N N/AM 1 ISO/IEC 23006-1 Architecture and Technologies N111
6310/01 Kyoto FDIS Editor N/A
M 2 ISO/IEC 23006-2 MXM API N111 10/01 Kyoto FDIS Editor N/A
107
65M 3 ISO/IEC 23006-3 Reference Software N111
6810/01 Kyoto FDIS Editor N/A
M 4 ISO/IEC 23006-4 MXM Protocols N11170
10/01 Kyoto FDIS SC29 N/A
U 1 ISO/IEC 23007-1 Widgets N11256
10/04 Dresden FDIS SC29 N/A
U 3 ISO/IEC 23007-3 Conformance and Reference SW N11767
11/01 Daegu FDIS ITTF TBP
V 1 ISO/IEC 23005-1 Architecture N11419
10/07 Geneva FDIS Editor N/A
V 2 ISO/IEC 23005-2 Control Information N11422
10/07 Geneva FDIS Editor N/A
V 3 ISO/IEC 23005-3 Sensory Information N11425
10/07 Geneva FDIS Editor N/A
V 4 ISO/IEC 23005-4 Virtual World Object Characteristics
N11427
10/07 Geneva FDIS Editor N/A
V 5 ISO/IEC 23005-5 Data Formats for Interaction Devices
N11429
10/07 Geneva FDIS Editor N/A
V 6 ISO/IEC 23005-6 Common Data Format N11432
10/07 Geneva FDIS Editor N/A
V 7 ISO/IEC 23005-7 Conformance and Reference Software
N 11/01 Daegu FDIS Editor N/A
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22.5 Standard development procedure from July 1st , 2010
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Annex H – Video report
Source: Jens-Rainer Ohm, Gary Sullivan
1 MPEG-2 video
As recorded in the meeting reports of the 94th and 95th meetings, it is planned to publish a new edition of MPEG-2 Part 2 after finalization of ISO/IEC 13818-2:2000/DAM 4 (Frame packing arrangement signalling for 3D content). In contribution m19997, the NB of the US included MPEG-2 Part 2 in a request for new editions (along with 13818-1 and 14496-12). In response, WG11 reiterated its plan to produce a new edition upon completion of the ballot for ISO/IEC 13818-2:2000/DAM 4.
The result should be published as integrated text rather than publishing ISO/IEC 13818-2:2000/Amd.4 separately.
Document(s) reviewed:m19997 USNB Contribution: Request for new editions A. G. Tescher for USNB
2 MPEG-7 Visual
The activities in MPEG-7 Visual technical work were related to finalization of amendments for software and conformance of video signature tools. These were authorized to proceed to FDAM ballot status as outputs of the 96th meeting.
An AHG was appointed (N11989, as recorded in N11890) to conduct further work until the 97th meeting. The mandates relate to maintenance of the various MPEG-7 Visual related parts and databases.
Further work on preparation of a Call for Proposals on Compact Descriptors for Visual Search was conducted under the Requirements subgroup.
Document(s) reviewed:
M19541
Summary of Voting on ISO/IEC 15938-6:2003/FPDAM 4 SC 29 Secretariat
Summary of Voting on ISO/IEC 15938-6:2003/FPDAM 4 SC 29 Secretariat
M19542
Summary of Voting on ISO/IEC 15938-7:2003/FPDAM 6 SC 29 Secretariat
Summary of Voting on ISO/IEC 15938-7:2003/FPDAM 6 SC 29 Secretariat
Document(s) approved:No. Title TBP Available11981 Text of ISO/IEC 15938-6:2003/FDAM4 Reference Software for
Video Signature ToolsN 11/04/08
11982 Text of ISO/IEC 15938-7:2003/FDAM6 Conformance for Video Signature Tools
N 11/04/08
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3 Reconfigurable Video Coding (RVC)
The main activities in RVC were as follows:
a) Regarding MPEG-B part 4, new inputs were reviewed on native functions, procedures and actors in CAL. Working Draft 3 of ISO/IEC 23001-4/Amd.1 (N11983) was issued, which now includes support of native functions, completed standard function libraries, and a syntax of constructors that is backward compatible to v1 and simpler than the previous version. An AHG will further investigate whether the computation model is now specified with sufficient precision, and whether it is compatible with existing (non-normative) tools. Issuing of the PDAM ballot is now planned for July.
b) Regarding MPEG-C part 4, the work on integration of missing functional units (FUs) for frame buffer management and addressing was finalized. Therefore, the DAM 2 (tools for AVC High Profile) ballot was issued. Further investigation is planned about the full reusability of the implemented FUs in the context of ISO/IEC 23002-4/Amd.3 (defining FUs for SVC Profiles), which stays at WD3 status.
Joint meeting with 3DG subgroupDiscussion and conclusions are reported in the report of the 3DG subgroup of WG11.
Review of Input contributions
Document No.
Title AuthorsNotes & Disposition
M20024FPGA Dynamic reconfiguration using the RVC technology: Inverse Quantification case study
Manel Hentati, Mohamed Abid, Yassine Aoudni, Jean François Nezan
The contribution presents an investigation on how the RVC specification can support the dynamic reconfiguration of an FPGA implementation. The case study considers the reconfiguration of a quantization matrix. This implies two modifications: one in the parser to recover the quantization matrix and another in the quantizer. Two options are possible in RVC. In the first case the FU in the VTL supports the change of the matrix, so no dynamic reconfiguration is necessary. In the second case two versions exist in the VTL (with and without change of matrix) and the implementation can be based on one version or on the other depending whether the implementation can support dynamic reconfiguration.
Recommendation: Continue the experimentation before proposing a change in the VTL to demonstrate partial reconfiguration capabilities.
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M20074Report on Performance of Generated Code (C, LLVM, and VHDL) from RVC Descriptions
Damien de Saint Jorre, Jérôme Gorin, Jean-François Nezan, Mickaël Raulet, Nicolas Siret, Matthieu Wipliez, Hervé Yviquel
This contribution presents a report of the performance of code generated by a RVC specification for both SW and HW. It reportedly shows that high performance can be reached directly by the RVC specification and the code is portable and scales on platforms with more processors.
Recommendation: The development of supporting tools has been shown to be beneficial for RVC development, and further work on this recommended.
M20075 Proposition of Changes to the Syntax of RVC-CAL
Matthieu Wipliez, Mickaël Raulet, Jean-François Nezan
This contribution proposes some syntax changes to RVC-CAL. They can be classified into two categories: backward compatible and non-backward compatible changes.
Decision: Included suggested changes in the WD of MPEG-B Amd.1 in two separate classes (backward and non backward compatible).
M20076 Proposition to Add Support of Native Functions and Procedures to RVC-CAL
Matthieu Wipliez, Mickaël Raulet, Jean-François Nezan
This contribution proposes to extend the RVC-CAL syntax with keyword “native” so as to facilitate the implementation of proprietary libraries.
Decision: Included the native functions and procedures in the WD of MPEG-B Amd.1.
M20077 Proposition of Functions and Actors for an RVC-CAL Standard Library
Matthieu Wipliez, Damien de Saint Jorre, Mickaël Raulet, Jean-François Nezan
This contribution proposes the development of a RVC-CAL standard library to be added to the MPEG-B standard.
Decision: Include the list and definition of the proposed functions and system actors into the WD of the MPEG-B amendment.
M20151 A proposal for RVC-CAL, Run-Time configuration
E. Bezati, M. Mattavelli
This contribution proposes a mechanism for the dynamic reconfiguration of FUs by adding to a network description a unique file that can update constant values of FUs in the whole network.
Recommendation: Clarification and more evidence are needed in terms of results of core experiment 5.
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An AHG was appointed (N11988, as recorded in N11890) to further the work until the 97th meeting.
Document(s) approved:No. Title TBP Available11983 WD3 of ISO/IEC 23001-4/Amd.1 CAL Extensions N 11/04/2211984 Disposition of Comments on ISO/IEC 23002-4/PDAM 2 N 11/03/2511985 Text of ISO/IEC 23002-4/DAM 2 Functional Units for AVC
Progressive High ProfileN 11/04/22
4 HEVCA meeting of the Joint Collaborative Team on Video Coding (JCT-VC) was held under ITU-T SG 16 auspices in a co-located fashion with the 96th WG11 meeting. WG11 approved the production of Test Model (N12000) and Working Draft (N12001) outputs of that activity.
The output test model and draft status produced from this (Geneva, 5th) JCT-VC meeting is referred to as HM 3. After an editing period, software and documents corresponding to HM 3 were produced after the meeting. The corresponding draft status produced from the preceding (Daegu, 4th) JCT-VC meeting is referred to as HM 2.
Preliminary tests performed after the meeting showed an improvement in compression performance of HM 3.0 (compared to HM 2.0) as shown in the following table for the various configurations. Some additional gain should also be evident in further incremental releases after integration of additional features that were not yet ready for the HM 3.0 software release.
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Average bit rate measurements for HM 3.0 relative to HM 2.0 in percentage terms(negative values indicate bit rate savings)
(primary measurement is for Y component; U and V component measures are less reliable)
All-Intra High Efficiency All-Intra Low Complexity
Y U V Y U VClass A -4.4 -9.9 -0.1 -11.4 -15.9 -9.1 Class B -4.2 -1.5 4.8 -7.1 -9.5 -6.4 Class C -4.2 -3.0 -3.0 -6.3 -8.8 -9.7 Class D -3.6 -1.3 -1.2 -5.5 -7.4 -7.7 Class E -4.8 12.0 6.5 -8.1 -5.9 -7.1 Overall -4.2 -1.4 1.3 -7.6 -9.7 -8.0 Enc Time[%] 126% 168%Dec Time[%] 115% 139%
Random Access High Efficiency Random Access Low Complexity
Y U V Y U VClass A -4.2 -11.5 -1.5 -10.6 -11.6 -2.5 Class B -4.8 -3.6 2.6 -8.4 -9.0 -5.5 Class C -4.8 -4.8 -4.4 -6.9 -8.2 -8.7 Class D -4.2 -2.1 -2.2 -5.7 -5.7 -6.3 Class E n/a n/a Overall -4.5 -5.4 -1.2 -7.9 -8.7 -5.7 Enc Time[%] 101% 108%Dec Time[%] 104% 125%
Low Delay High Efficiency Low Delay Low Complexity Y U V Y U VClass A n/a n/a Class B -5.1 -2.4 -0.2 -8.7 -1.4 -1.2 Class C -5.3 -3.1 -3.0 -8.0 -4.0 -4.9 Class D -4.4 -2.6 -2.6 -6.8 -3.5 -3.7 Class E -6.8 1.5 1.7 -9.4 -1.9 -2.7 Overall -5.3 -1.9 -1.1 -8.2 -2.7 -3.0 Enc Time[%] 99% 105%Dec Time[%] 105% 123%
The Video and Requirements subgroups of WG11 held a meeting session with experts of Q6/16 and JCT-VC and discussed the following subjects relevant to the work on HEVC:
HEVC software copyright management: After further consultation with ITU-T SG 16, according to the plans established at the 94th and 95th meetings, WG11 approved a license and disclaimer header language for use by the JCT-VC for the collaboratively-developed video coding software known as the HEVC reference software. The HEVC reference software copyright license header language is the BSD license with preceding sentence declaring that contributor or third party rights are not granted, as recorded in N10791 of the 89th meeting. Both ITU and ISO/IEC will be identified in the <OWNER> and <ORGANIZATION> tags in the header. This software is used in the process of designing the new HEVC standard and for evaluating proposals for technology to be included in this design. Additionally, after development of the coding technology, the software will be published by ITU-T and ISO/IEC as an example implementation of the HEVC standard and for use as the basis of products to promote adoption of the technology. It was noted that this important disclaimer language has been under consideration at every JCT-VC meeting, since the first meeting in April 2010 (as recorded in the JCT-VC documents JCTVC-A200, JCTVC-B001, JCTVC-C001, JCTVC-D001,
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JCTVC-E001 and others), and no objections to its adoption had been expressed in multiple recent meetings of the JCT-VC or its parent bodies.
HEVC planning and requirements: The Japanese National Body of WG11 requested not to delay the HEVC standardization timeline for topics not in the common test conditions of the current HEVC project. There was agreement among the participants to retain the current timeline. Reaching the goal of high coding efficiency with appropriate complexity within the planned timeline (FDIS by January 2013) has priority. This was reconfirmed with JCT-VC at the current meeting. However, the possibility remains under consideration to begin, prior to FDIS approval, the development of extensions for additional functionality such as bitstream scalability.
Extension of HEVC towards scalability and 3D stereo/multiview video coding: It was generally agreed that substantial support for these capabilities should be provided in near-term extensions to the initial version of HEVC. The marketplace demand for timely completion of these capability extensions was emphasized in the discussion. It was also agreed that the effort requires coordination between the parent bodies of the JCT-VC. Further discussion on the subject in the interim period until the 97th meeting was authorized to take place in an AHG on Study of HEVC Extension (N12028, as recorded in N11890).
Document(s) approved:No. Title TBP Available12000 High Efficiency Video Coding (HEVC) Test Model 3 (HM 3) N 11/06/3012001 High Efficiency Video Coding (HEVC) Working Draft 3 N 11/06/30
5 3DV, MFC, and "Option 1" video codingWork toward development of calls for proposals on 3D video coding, MPEG frame-compatible (MFC) scalable resolution enhancement of stereo 3D video, and "Option 1" video coding was conducted under the Requirements subgroup and is reported in the report of that subgroup.
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Annex I – Audio report
Source: Schuyler Quackenbush, Chair, Audio Subgroup
1 Opening Audio Plenary..............................................................................................................22 Administrative matters...............................................................................................................2
2.1 Communications from the Chair 22.2 Approval of agenda and allocation of contributions 22.3 Creation of Task Groups 22.4 Approval of previous meeting report 22.5 Review of AHG reports 22.6 Joint meetings 22.7 Received National Body Comments and Liaison matters 22.8 Plenary Discussion 2
3 Record of AhG meetings............................................................................................................24 Task group activities...................................................................................................................2
4.1 Joint Meeting 34.1.1With Systems on USAC Audio/Systems Interactions (Tue 1400-1500).........................34.1.2With Requirements on Audio for HEVC (Thu 1000-1100).............................................34.1.3Structure of MPEG SVN Repository...............................................................................4
4.2 Task Group discussions 54.2.1MPEG-2, MPEG-4, MPEG-7, MPEG Surround, SAOC.................................................54.2.2MPEG-D Unified Speech and Audio Coding..................................................................5
5 Closing Audio Plenary and meeting deliverables.....................................................................125.1 Plenary discussions 135.2 Responses to Liaison and NB comments 155.3 Recommendations for final plenary 155.4 Establishment of Ad-hoc Groups 155.5 Approval of output documents 155.6 Press statement 155.7 Agenda for next meeting 155.8 All other business 155.9 Closing of the meeting 15
Annex A Participants..................................................................................................................16Annex B Audio Contributions and Schedule..............................................................................17Annex C Task Groups................................................................................................................20Annex D Output Documents.......................................................................................................21Annex E Agenda for the 97th MPEG Audio Meeting.................................................................22
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1 Opening Audio PlenaryThe MPEG Audio Subgroup meeting was held during the 96th meeting of WG11, March 21-25, 2011, Geneva, Switzerland. The list of participants is given in 1.
2 Administrative mattersCommunications from the ChairThe Chair summarised the issues raised at the Sunday evening Chair’s meeting, proposed task groups for the week, and proposed agenda items for discussion in Audio plenary.
Approval of agenda and allocation of contributionsThe agenda and schedule for the meeting was discussed, edited and approved. It shows the documents contributed to this meeting and presented to the Audio Subgroup, either in the task groups or in Audio plenary. The Chair brought relevant documents from Requirements, Systems to the attention of the group. It was revised in the course of the week to reflect the progress of the meeting, and the final version is shown in 2.
Creation of Task GroupsTask groups were convened for the duration of the MPEG meeting, as shown in 3. Results of task group activities are reported below.
Approval of previous meeting reportThe Chair asked for approval of the 95th Audio Subgroup meeting report, which was registered as a contribution. The report was approved.
Review of AHG reportsThere were no requests to review any of the AHG reports.
Joint meetings
Groups What Where Day TimeS, A USAC Audio/Systems Interaction Systems Tue 1400-1500All MMT Rm 18 Wed 1600-1730R, A Audio for HEVC Audio Thu 1000-1100
Received National Body Comments and Liaison matters
No. Title Source Respondingm19533 IEC NP: Audio Archive System -- Part 1:
Physical format -- Part 2: Audio archive system
IEC TC 100 via SC 29 Secretariat
S.R. Quackenbush
m19534 IEC NP: Text-to-Speech Functionality for Television - General requirements
IEC TC 100 via SC 29 Secretariat
S.R. Quackenbush
m19538 IEC CDV 61937-2/Amd.1 IEC TC 100 via SC 29 Secretariat
S.R. Quackenbush
Plenary DiscussionThere were none.
3 Record of AhG meetingsThere were no AhG meetings.
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4 Task group activitiesJoint Meeting
With Systems on USAC Audio/Systems Interactions (Tue 1400-1500)
Schuyler Quackenbush, Audio Research Labs, presentedm19972 Thoughts on USAC /systems interaction S. R. QuackenbushThis contribution proposes means to achieve the following functionality:
Exact Round-Trip Coding. Given an arbitrary input signal, e.g. as a *.wav file, any compliant USAC encoder can encode to an MPEG-4 File and a USAC decoder, with the help of some “out of scope” but simple Systems level functionality, can decode the file such that the exact same signal is obtained.
File Random Access and Signal Excerpt. Building upon the Exact Round-Trip Coding functionality, a USAC decoder, with the help of some “out of scope” but simple Systems level functionality, can efficiently reconstruct an arbitrary, sample-exact excerpt of the compressed waveform.
There was very good discussion between Audio and Systems experts about the objectives (e.g. to understand the definition of round-trip-coding), the mechanism (e.g. what boxes in the MPEG-4 File Format are needed to support the functionality) and, most importantly, the need for the functionality. The following is a summary of the widely-expressed views in the joint meeting:Since round-trip coding is well defined and has a very apparent value in the context of file-based processing of time-domain and compressed waveforms, there was considerable support for an EditListBox in all MPEG-4 Files containing a USAC bitstream.There was less support for an EditListBox, SyncSampleBox, SampleToGroup box and the SampleGroupDescription box (where the last contains an AudioSampleGroupEntry which contains a AudioRollRecoveryEntry which contains the roll_distance value) in MPEG-4 Files containing a USAC bitstream.It was remarked that if the desired access unit is chosen exactly on a random access point, (or even the access unit immediately after the random access point), then the sound signal must be decoded from the PRECEDING random access point, because of the pre-roll due to the MDCT transform.Finally, there was wide agreement that the concepts of round-trip and random excerpt did not have much utility in a streaming environment (i.e. with no MPEG-4 file).Further Discussion in Audio SubgroupBased on the information gathered in the joint meeting, it was decided that Audio experts should study the proposal of mandating EditListBox in MP4F, with the intention of a decision at the next MPEG meeting. There are two specific issues to study: 1) how to mandate that USAC bitstreams in an MPEG-4 File shall have an EditListBox with appropriate information to support round-trip coding and 2) how the USAC standard should indicate proper use of the EditListBox. To address the second issue, the presenter expressed the intention of bring a contribution to the next meeting containing text appropriate for inclusion in the informative part of the USAC specification.
With Requirements on Audio for HEVC (Thu 1000-1100)
Since the author of this contribution could not attend the 96th meeting, the Audio Chair presented m19570 22.2 multichannel sound material for testing 3D coder Akio AndoThe contribution briefly described the setup for several 22.2. channel records make by NHK. The objective was to record sound material with (1) a clear sound direction, (2) rich sound envelopment, (3) movement of sound with power, and (4) a pure and clear timbre. To obtain such a sound material, NHK selected four sound sources: (1) a church bell, (2) a pipe organ in a very reverberant room, (3) a steam locomotive, and (4) a Japanese Edo wind bell.
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NHK is willing to make these recordings available to companies working on the “Audio of HEVC” exploration and any standard that may arise from that.Jeongil Seo, ETRI, presentedm20107 Comments on High Efficiency Video Coding Jeongil Seo, Kyeongok KangThe contribution reviewed the concept of sound field reconstruction (SFR) and noted various technologies that can be employed for SFR
Vector Based Panning Wave Field Synthesis Higher Order Ambisonics Least Squared Methods
It noted that there is ongoing work in ITU-R SG6 WP6C on “Multichannel Sound Technologies in Home and Broadcasting”There was good discussion on SFR and the opportunities for standardization. The Requirements Chair noted that any potential requirements should be on a transmission format and on presentation formatJuergen Herre, FhG, noted that there are three representation schemes discussed in the contribution:
Channel based (e.g. NHK 22.2) Object based (e.g. objects in sound scene) Scene based (e.g. Ambisonics)
It was noted that ambisonics is very flexible with respect to scene rendering and loudspeaker placement, but has a very restrictive “sweet spot.” Higher-order ambisonics can extend the “sweet spot”of the perceived sound scene.Audio Chair noted that there is a trade-off between channel-based and object-based paradigms:
Channel-basedo potentially simple and straightforward recording and encoding/decodingo can guarantees the intended user experience if and only if the user has the correct
loudspeaker placement Object-based
o requires a potentially more complicated recording processing o encoding/decoding (of object signals) is straightforward o reconstructing the multi-channel user experience in the decoder is potentially very
complexo can potentially support arbitrary speaker placement in the user’s setup
Juergen Herre, FhG, noted that WFS is typically a 2D technology, i.e. a ring of loudspeakers in the horizontal field, and what we desire is 3D Audio, which may encompass height and also distance. He further noted that it would be very desirable if the presentation could be “best-effort” in that it adapts as best as possible to the users loudspeakers setup.As a conclusion of the joint meeting, it was decided to add use cases and possible requirements appropriate to the object based representation to the “Audio for HEVC” document and, in addition, to add an section discussing Profiles Kristofer Kjörling, Dolby gave a presentation on two profiles proposed for USAC. These profiles are supported by Apple, Dolby, FhG, Philips, Sony and VoiceAge. It was noted that the technical experts stating the support speak for their company’s respective product and marketing representatives.The proposed HE-AAC V3 profile plays all content, i.e. AAC, HE-AAC V2, HE-AAC V3 and USAC (baseline, 2-channel), while the proposed Baseline USAC profile would play mono, stereo and 5.1 channel USAC material.The Requirements Chair noted that there is rapid integration in the portable device marketplace, and hence voiced support for the V3 profile.
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David Singer, Apple, voiced support for both profiles. However, he feels that the V3 name is not adequate.Gregory Pallone, Orange Labs, noted there is no technical support for the V3 profile. He quoted from an MPEG-4 document that discusses profiles. He noted that this profile would be technically useless and could lead to confusion in the market since the functionality provided by this profile can be supported using a straightforward combination of USAC Baseline and HE-AACv2 profiles. There has already been some confusion between HE-AAC V1 and HE-AAC V2, and this confusion could be stronger between HE-AAC V2 and HE-AAC V3. Indeed, it is a fact that a HE-AAC V2 decoder cannot decode a HE-AAC V3 bitstream. This was not the case for a HE-AAC V2 bitstream, which can be decoded by a HE-AAC V1 decoder.The Requirements Chair stated that profiles are created by market pull as enabled by an engineering view of the technology. He requested that there be a “technical exploitation roadmap” in support of the profiles. Explicit support from
IPR companies that facilitate licensing Service providers Product producers
He further stated that that one company’s objection cannot derail the process.Werner Oomen, Philips, note that the support expressed is from major consumer electronics companies, and that their past track record in supporting MPEG technology should be considered.The Audio Chair indicated that he will ask for clarity in the Chairs meeting.
Structure of MPEG SVN Repository
Representatives from the Subgroups and their various significant software projects discussed how to get the MPEG software assets onto the MPEG SVN server and the structure that the software should have on that server.For Audio, the process of moving the software to the MPEG SVN server might be:
MPEG-2 Audio – copy the software from the ISO website (both part 3 and part 7)MPEG-4 Audio
Natural Audio -- import from FhG CVS repository Other – import from
MPEG-7 Audio – load from where??MPEG-D
MPEG Surround – import from FhG CVS repository SAOC – import from FhG CVS repository USAC – import from FhG CVS repository
The structure of the Audio software on the SVN server might be, for example:MPEG-2Part 3 (Audio)
Tag BranchTrunk
Part 7 (AAC)Tag BranchTrunk
MPEG-4Part 3 (Audio)
Natural AudioTag BranchTrunk
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Synthetic AudioTag BranchTrunk
It was agreed that each group (e.g. Audio) will propose its own structure for its software assets, and that Chairs will send to [email protected] the contact info of persons that will be in charge of moving, creating, and maintaining the SVN software. In the case of Audio, the Audio Chair should provide to Christian:
User read-only account on e.g. FhG CVS server Target structure to use when moving software to MPEG SVN server
Task Group discussions
MPEG-2, MPEG-4, MPEG-7, MPEG Surround, SAOC
Leon Terentiv, FhG, presentedm20058 Report on corrections for MPEG SAOC Jonas Engdegård, Heiko Purnhagen,
Oliver Hellmuth, Jürgen Herre, Cornelia Falch, Leon Terentiv, Johannes Hilpert, Andreas Hölzer, Werner Oomen
The contribution proposes a number of corrections to the SAOC reference software. In every case it is to align the reference software with the specification text or to defect report on the text.It was the consensus of the Audio Subgroup to issue the content of the contribution as a Workplan on SAOC Conformance and Reference Software. Julien Robilliard, FhG, presentedm20062 Corrections to MPEG Surround reference software Andreas Hoelzer, Johannes Hilpert,
Christian Ertel, Ferenc Kraemer, Leif Sehlstrom, Heiko Purnhagen
The contribution proposes corrections to MPEG Surround reference software. Most proposed corrections have already been integrated into the MPEG Surround reference software. However, the following proposed corrections are not yet integrated:
Enable differential coding of second (and subsequent) parameter sets in an Independency frame.
Correct handeling of ICC parameter quantiation.
It was the consensus of the Audio Subgroup to: Issue DoC on DCOR2.2 at this meeting Issue COR 2 at this meeting with a 2-week editing period
MPEG-D Unified Speech and Audio CodingMaintenanceMax Neuendorf, FhG, presentedm20034 Corrections to Reference Software and DIS of USAC Max NeuendorfThe contribution divides the proposed corrections into three groups:
Corrections to the DIS text Corrections to the Reference Software Corrections to both DIS text and Reference Software
Corrections to the DIS text TS Decorrelator Syntax – add table that indicate that certain syntactic elements are in a clause of the
MPEG Surround standard. Add figure for MPS212 and SBR showing “normal” operation FAC – change fac_length from fixed number to e.g. coreCoderFrameLength/8 Remove MPEG-4 AudioSpecificConfig() changes. They are moved to a possible MPEG-
4 amendment
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Correct alignment of LP mode adaptive codebook filter Other small editorial corrections
Corrections to the Reference Software Coarse ICC parameter dequantization is not aligned with text Adopt corrections to MPEG Surround Correct SBR buffer allocation size in Inter-TES Correct handling of DC/Nyquist values in FFT used in SBR Cross-products only for pitch>0 (i.e. never for unvoiced frames) Buffer initialization in QMF transposer
Corrections to both DIS text and Reference Software Return to state in which bsFixedGainDMX is available. It was discovered that this is
needed for current USAC operation Correct bsXXXDataMode “default” and “interpolation” modes. This aligns USAC
MPS212 with fixes being made to MPEG Surround reference software. Harmonize TNS_MAX_LENGTH:
o 4-bit word lengtho max of order 15 filter (i.e. using entire space of what can be signalled)
Coding of first FD scale factoro shall be zero and shall not be signalled (since it is equal to GlobalGain)
Include TCX FAC into regions to which the bass post-filter is applied.
It was the consensus of the Audio Subgroup to adopt into the Study on DIS all changes proposed in this contribution.
Roch Lefebvre, VoiceAge, presentedm20031 Additions to USAC specification Roch Lefebvre, Redwan Salami,Philippe
Gournay, Bruno BessetteThe contribution proposes text to add to USAC specification. Some of the proposed text permits the removal of references to the 3GPP specification and instead provides text for direct inclusion in USAC specification. Other segments of proposed text adds additional explanatory text. The rationale for adding the text is toDefine terms
Algebraic codebook Algebraic Vector Quantizer (AVQ) Closed loop pitch Fractional pitch LP coefficients Zero imput response (ZIR)
Add additional descriptive text LPD pitch delay (i.e. lag) decoding
Removing references to 3GPP specification ACELP codebooks Decoding of AVQ indices Pitch tracking and gain recalculation in context of bass-postfilter: clarify how the gain of
the bass-postfilter is calculated.
The presenter noted that all proposed changes affect only the USAC text, and do not impact the USAC reference software.David Virette, Huawei, noted that the proposed text for decoding of AVQ indices, used the word “encoder.” The presenter clarified that the word “encoder” is used in the context of what is put in the bitstream. It was the consensus of the Audio Subgroup to adopt into the Study on DIS all changes proposed in this contribution.
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Additional CorrectionsMarkus Multrus, FhG, reported that additional bugs were found in the USAC reference software after the contribution upload time for the 96th meeting. Hence these bugs are reported now, during the MPEG week, since they could not be reported in the contribution. The bugs are
Problem with DC/Nyquist Buffer allocation in 1:4 SBR
It was agreed to fix these bugs in the USAC reference software.Max Neuendorf, FhG, reported new information concerning the bass post filter bug reported in m20034. The short presentation addressed the question of why the buggy code produced an error in a specific region of the output signal when the coder makes a transition from ACELP to TCX.
CEs in Integration
Toru Chinen, Sony, presentedm20006 Corrections and additional information on
PVC part of USAC DISToru Chinen, Yuki Yamamoto, Mitsuyuki Hatanaka, Hiroyuki Honma, Masayuki Nishiguchi,
USAC-PVC
The contribution proposes corrections to PVC part of USAC DIS text. Add missing argument to sbr_sinusoidal_coding() Correct typo bs_dt_env[][] Define the acronym PVC (Predictive Vector Coding)
The contribution proposes corrections to PVC part of USAC DIS text that also require changes to reference software.
Modification to support independency flag
It was the consensus of the Audio Subgroup to adopt into the Study on DIS all changes proposed in this contribution.The contribution proposed some text that describes the PVC encoder, to be added to the informative annex of the USAC specification. The presenter further noted that the full source code for the PCV encoder has already been integrated into the MPEG Reference Encoder. Markus Multrus, FhG, noted the PVC functionality has been integrated into the USAC normative decoder source code.It was the consensus of the Audio Subgroup that the integration of the PVC CE is complete and that the informative text in the contribution will be included in the informative annex of the Study on DIS.
Julien Robilliard, FhG, presentedm20063 Information on Applause Classification for
TSDSascha Disch, Achim Kuntz, Christian Uhle
USAC-TSD
The contribution presents information on how to derive the applause detection flag used by the Transient Steering Decorrelator (TSD) tool. The contribution describes a detector method based on a trained supervised learning approach, as further described in a referenced paper. This method has shown a 95% correct identification of the target transient events. The informative text is given in the contribution. It was the consensus of the Audio Subgroup that the integration of the Applause CE is complete and that the informative text in the contribution will be included in the informative annex of the Study on DIS.
The Chair asked for the status of the following CEs that are in integration phase:Increased structural Flex. in SBR (1:4) Some informative text has been provided. There is a full
implementation in the encoder source code.Enhanced performace at mid-bitrates There is a full implementation in the encoder source code.QMF Harmonic Transposer This has no role in the encoder.
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Low-complexity decorrelator This has no role in the encoder.Markus Multrus, FhG, noted the PVC functionality has been integrated into the USAC normative decoder source code.It was the consensus of the Audio Subgroup that the integration of the Increased struct. Flex. in SBR and the Enhance Performance at Mid-bitrates have satisfied the requirements of integration and hence are complete CEs.
The CEs QMF Harmonic Transposer and Low-complexity decorrelator do not require any changes to the USAC encoder, and so have satisfied the requirements of integration and hence are complete CEs.
Discussion of CE performance
The Chair presented an excerpt from the 92nd Audio Report that reported on a discussion of a framework for judging the performance of CE technology. The Chair noted that there could be a “low bar” such that CEs whose performance are below that are rejected and a “high bar” such that CEs whose performance are above that are accepted. CEs whose performance is between (in the “grey zone”) must be discussed and all pros and cons weighted, with acceptance being, of necessity, a subjective judgement by the group.
Ongoing CEsToru Chinen, Sony, presentedm20007 Sony listening test report on lossless coding
of pitch lag for ACELP CEMitsuyuki Hatanaka, Toru Chinen, Masayuki Nishiguchi,
USAC-PL
The contribution presented results of a cross-check listening test of the Lossless Coding of Pitch Lag CE operating at 8 kb/s mono. With both absolute and differential analysis of MUSHRA scores, there were no difference between RM and RM+CE at the 95% level of significance assuming Student T distributions.Philippe Gournay, VoiceAge, presentedm20032 VA Crosscheck for NTT Pitch Lag Coding Philippe Gournay, Roch
LefebvreUSAC-PL
The contribution reviewed the CE status at the 95th meeting: Audio experts requested that the Huffman codebooks be re-trained on a larger database Audio experts noted that a part of the CE performance gain was due to the lossless coding
of pitch lag and a part due to a new encoder tuning.
Based on these observations, two new tests were undertaken.Test 1. Systems under test were:
RM8 RM8+CE using same ACELP/TCX decision as RM8 and with CE lossless coding
Test 2. Systems under test were: RM8 RM8+CE using same ACELP/TCX decision as RM8 and with CE lossless coding mod_RM8 using same ACELP/TCX decision and the same ACEP mode (i.e. ACELP bit
rate) as in RM8+CE. This is an encoder-only strategy that can be decoded with normative RM8
The contribution presented results of a cross-check listening test for Test 1 and Test 2.Test 1:
Differential analysis of MUSHRA scores for (RM8+CE – RM8) showed 1 item better and 2 items worse.
Test 2: Differential analysis of MUSHRA scores for (RM8+CE – RM8) showed 1 item better. Differential analysis of MUSHRA scores for (mod_RM8 – RM8) showed 1 item better.
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Differential analysis of MUSHRA scores for (mod_RM8 – RM8+CE) showed no differences.
The Chair noted that no system in Test 1 and Test 2 was exactly the system under test, RM8+CE) presented a the 95th meeting, in that this system additionally allocated bits from the bit reservoir (typically from bits that would otherwise be allocated to TCX and SBR) to ACELP coding.Takehiro Moriya, NTT, presentedm20023 Additional information of CE on lossless
coding of pitch lag for ACELP in USACTakehiro Moriya, Yutaka Kamamoto, Noboru Harada
USAC-PL
The contribution reports that the Huffman codebook used for lossless coding of pitch lag was re-trained. A large (more than 3 hours) database of speech sampled at 48 kHz with 16-bit linear PCM was used to train the codebook. No USAC test item was included in the training set. At operating points from 8 kb/s to 24 kb/s mono, the re-trained codebooks provided slightly improved compression performance.NTT test result:Test 1:
Differential analysis of MUSHRA scores for (RM8+CE – RM8) showed 2 item better and mean better.
Test 2: Differential analysis of MUSHRA scores for (RM8+CE – RM8) showed 2 better, mean
better. Differential analysis of MUSHRA scores for (mod_RM8 – RM8) showed no difference. Differential analysis of MUSHRA scores for (RM8+CE – mod_RM8 ) showed 1 better,
mean better.
When NTT, Sony and VoiceAge data are pooledTest 1:
Differential analysis of MUSHRA scores for (RM8+CE – RM8) showed 3 better.
When Sony and VoiceAge data are pooled (NTT data is excluded)Test 1:
Differential analysis of MUSHRA scores for (RM8+CE – RM8) showed 1 better, The better item (“Arirang”) is consistently better when NTT only, Sony and VoiceAge
pooled, and all pooled.
When NTT and VoiceAge data are pooledTest 2:
Differential analysis of MUSHRA scores for (RM8+CE – RM8) showed 3 better, mean better.
Differential analysis of MUSHRA scores for (mod_RM8 – RM8) showed no difference. Differential analysis of MUSHRA scores for (RM8+CE- mod_RM8) showed mean better. “Arirang” coded by RM8+CE is again better than RM8 when NTT and all pooled.
The contribution notes that the CE performance could be increased with these additional encoder-only optimizations:
Better ACELP/TCX classification Joint optimization of pitch lag and pitch smoothing Bit assignment of saved bits
Roch Lefebvre, VoiceAge, noted that the items that showed an improvement were not consistent across test sites. Bernhard Grill, FhG, noted that this CE provides bitrate savings at the lowest bitrates where it matters the most.The presenter noted that at 8 k/bs and 12 kb/s the encoder always selects ACELP mode when the signal is clean speech. Hence the CE brings at least 3.0% and 2.5% savings, respectively.Additional Discussion
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Takehiro Moriya, NTT, made an additional presentation concerning this CE. An analysis of the relative frequency of ACEP frames as a function of bit rate for both the 15 test items and for only the speech and mix of speech and music indicated that the CE could save 2% of bitrate for speech and mix of speech and music content. The audio expert from Samsung (a native Korean speaker) reported that she participated in an informal blind listening test done during the week and verified that the Korean-language speech item “Arirang_speech.wav” was improved.Roch L, VoiceAge, noted that the CI is larger at NTT. Is this OK to pool? Further, there is no consistent agreement on improved items across test sites. Hence, he does not see strong evidence of performance in this CE.USAC Open EncoderTaejin Lee, ETRI, presentedm20000 Further information regarding ETRI USAC Encoder Taejin Lee, Seungkwon Beack, Minje
Kim, Kyeongok KangThe contribution reviewed the history of the ETRI TCX windowing technology proposal. ETRI proposes to incorporate the TCX windowing technology into the USAC “open source” encoder. ETRI envisions having the “open source” encoder operating in mono available prior to the end of 2011.The contribution presents listening test result comparing the USAC RM8 (as decoded RM8 bistreams) and ETRI encoder with ETRI TCX windowing. The ETRI encoder operates in LPD mode only.Bitrate Mushra Analysis Result20 kb/s mono Absolute 1 item better: te1520 kb/s mono Differential 1 better, mean better24 kb/s mono Differential 2 better, mean better
Markus Multrus, FhG, noted that the purpose of MPEG is to create standards that promote interoperability, and expressed concern that the enhanced USAC “open source” encoder does not produce a normative bitstream. This would create confusion in the marketplace.The Chair noted that the ETRI TCX windowing is to a large extent about the bit allocation required for noise shaping, in that the coding modes to compare are:
FD mode in short blocks with scale factors for noise shaping TCX mode with LP envelope for noise shaping
Jeongook Song, Yonsei University, presentedm20026 Status report on USAC Reference Software JAME Jeongook Song, Henney Oh, Hong-Goo
KangThe contribution reports on the status of the JAME USAC Reference Software project. The JAME source code is available at:
http://wg11.sc29.org/svn/repos/MPEG-D/branches/JAMEThe functionality of JAME can be summarized as follows:
When decoding the RM9 reference bitstreams, the JAME 0.9.1 decoder generates bit-identical decoded waveforms as the MPEG normative decoder.
The Jame 0.9.1 encoder has all the functionality as found in the RM9 MPEG informative encoder.
The presenter reported that the missing modules that would make the greatest quality improvement are, in FD mode:
Psychoacoustic model Bit allocation module (i.e. determining sectioning and scale factors)
In addition, JAME is missing The “enhanced” components of eSBR Stereo tools MPEG Surround 212 tool
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Chair proposed to have a workplan from this meeting to progress the Jame software encoder with the goal of achieving very good performance when coding mono signals.Ongoing CEsDavid Virette, Huawei, presentedm20050 Additional information for the CE on
adaptive T/F domain post-processing for USAC
David Virette USAC-TF
The contribution reviewed the history of the CE, summarizing the performance results presented at each MPEG meeting. It reviewed the workplan that coordinated results presented at the 95th meeting, particularly the performance comparisons that would support a decision on the CE technology.The contribution reviewed the subjective performance results for the CE. The presenter noted that there is strong improvement for speech items at 8 kb/s and 12 kb/s.The presenter noted that while speech communication coders can have a post-processor that is always active (i.e. applied), USAC is a mix of speech and music so that the post-processor must be switched on and off in response to the content category.It is proposed to add a bit in the SBR configuration syntax that will enable or disable the adaptive T/F post-processing tool on a global level. That is, the per-frame flag that enables the per-frame T/F post-processing is present in the bitstream only if the configuration flag is set. Kristofer Kjörling, Dolby, noted that the 95th MPEG Audio Report stated that:
There was no consensus to adopt this CE or to take a next step with this CE.Hence, he does not understand why the Audio Subgroup is discussing the CE at the 96th meeting. Heiko Purnhagen, Dolby, felt that a global on/off bit was not sufficient to substantially change the technical arguments of the 95th meeting. The Chair expressed a concern that it is very important that the decisions of the Audio Subgroup concerning CE technology be able to be justified as fair and consistent to all of MPEG. He will work with CE proponents to review CE performance information as a means to assess this issue.Bitstream IssuesMax Neuendorf,m20069 Follow-up on proposed revision of USAC bit stream
syntaxMax Neuendorf, Markus Multrus, Stefan Döhla, Heiko Purnhagen, Frans de Bont, Julien Robilliard, Philippe Gournay,
The contribution proposes a number of revisions to the USAC syntax. Changes can be divided into three categories:
Interface to Systems Configuration Payload
This is more clearly shown in the following figure:
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It proposes to re-structure the configuration structure: it is more modular and includes a general extension mechanism (which signals type and length). This permits decoders that are not aware of extension type to skip the extension. Extensions already defined are:
MPEG Surround SAOC Fill Bytes
The proposed changes make eSBR an integrated part of the USAC bitstream, whereas previously it’s syntax operated as if it was an optional post-processor.It is proposed to add to each payload one or two additional bits that permit decoding of the current frame even when the previous frame was not received (i.e. due to channel errors or channel jitter). This increase in rate is offset by the adoption of the SBR default header, SbrDfltHeader(), structure. The presenter noted that these are the only changes that alter the payload “bit budget.” The contribution proposes to implement all proposed changes into the USAC encoder/decoder that will be used in the USAC Verification Test.The presenter noted that the impact on break-in on streaming or broadcast content would be minimal as the additional configuration bits (if any) are “amortized” over the entire file or over the set of coded frames corresponding to the break-in interval.The UsacConfig() is now stand-alone, and does not require any MPEG-4 config. However, there is an interface define such that USAC can be carried under the MPEG-4 “umbrella” and hence use the existing MPEG-4 infrastructure for carriage in e.g. MPEG-2 Systems.It was the consensus of the Audio Subgroup to adopt the changes proposed in the contribution plus the verbally propsed change:
To add a usacExtElementPresent bit in the payload for each Extension Element that was signalled as active in the usacConfig().
into the Study on USAC DIS. Kristofer Kjörling, Dolby, presentedm20035 Proposed profiles for MPEG-D USAC Bernhard Grill, Max
Neuendorf, Roch Lefebvre, Kristofer Kjörling, Heiko Purnhagen, Werner Oomen
The contribution reviewed the role of profiles in MPEG and the history of the successful AAC family of profiles in MPEG-4. The contribution proposes two profiles: Baseline USAC Profile and HE-AAC V3 Profile.USAC Baseline ProfileIn the Baseline USAC Profile the following coding tools shall not be employed:
Time warped filterbank DFT based harmonic transposer in enhanced spectral band replication Fractional delay decorrelator in MPEG Surround for mono to stereo upmixing (MPS212)
Level Max. channels
Max. sampling rate [kHz]
Max. PCU
Max. RCU
1 1 48 5 5
2 2 48 14 10
3 5.1 48 35 28
4 5.1 96 70 28
Discussion:Max Neuendorg, FhG, noted that the PCU and RCU numbers in the Profile table above are approximate and are intended to indicate peak complexity.Gregory Pallone, Orange Labs, noted that 2 channels at 96 kHz would be an interesting level. He also noted that there was some discussion at previous MPEG meetings on the topic of changing the name of the USAC specification. The Chair noted that he would be very happy to discuss a different name, and that the best alternatives that he was aware of are:
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eXtended Audio Coding (XAC) Advanced Broadcast Coder (ABC)
Juergen Herre, FhG, noted that higher quality coding at stereo could be satisfied by the HD-AAC Profile, which can deliver 96 kHz sampling at a saleable bit depth.Kristofer Kjörling, Dolby, noted that at Dolby there were many hours of discussion with staff that were aware of the needs of Dolby customers to determine the selected levels of the USAC Baseline Profile, but that he would be happy to hear about the needs of other customers.Werner Oomen, Philips, noted that in the Super Audio CD product (Philips/Sony) it was channels the the customer wanted.It was the consensus of the Audio Subgroup to include the USAC Baseline Profile into the USAC Study on DIS.A second proposed profile named “HE-AAC V3” was presented. This consists of:
The HE-AAC V2 profile The USAC Baseline profile, restricted to Level 2 (i.e. mono or stereo at samplings rates
not higher than 48 kHz)
The presenter stated that market and industry feedback clearly stated that combining USAC with HE-AAC v2 would significantly increase the probability of success and adoption of USAC in the marketplace. Furthermore, the presenter stated that including Baseline USAC profile level 2 in the HE-AAC v3 profile would provide the AAC family of profiles with the missing functionality of consistently high performance across content types at low bitrates. The presenter further stated that all market and industry feedback the presenter had received clearly stated that including USAC multi-channel in the AAC family, would seriously confuse the marketplace since a new discrete multi-channel coding algorithm would be introduced in the AAC family, but one that has no compelling technical merit. He summed up by stating that it would have no or very limited technical merit, and be clearly counterproductive from a market and industry-need perspective.Gregory Pallone, Orange Labs, re-stated the position that it does not support the V3 profile because it does not see a technical motivation for the profile.Masa Nishiguchi, Sony, reported that Sony has an interest in the profile.Max Neuendorf, FhG, presentedm20066 Proposed amendment to ISO/IEC 14496-3 MPEG-4 Bernhard Grill, Max
Neuendorf, Roch Lefebvre, Kristofer Kjörling, Heiko Purnhagen, Werner Oomen,
The contribution proposes an amendment to MPEG-4 Audio (Subpart 1). The purpose is to permit USAC to be carried within the MPEG-4 infrastructure, which includes the MPEG-4 File and MPEG-2 Systems. The amendment defines USAC as audio object type (AOT) 42. (One might assume that this is because USAC is the answer to the question.) Profile and Level Indications are define, and most importantly the AudioSpecificConfig() is modified to add a case statement for AOT 42 (USAC) which then branches to the UsacConfig().The Chair notes that the discussion on the HE-AAC V3 is ongoing, so that the text in the amendment must reflect the final outcome of that discussion.It was the consensus of the Audio Subgroup to issue an amendment to MPEG-4 Audio based on the contribution text, with possible modification to reflect the outcome of the discussion on the HE-AAC V3 profile.
5 Closing Audio Plenary and meeting deliverablesPlenary discussionsThere were extensive discussions (lasting two hours) of the proposed USAC Profiles and of the USAC Verification Test with the Convenor present. During the discussion on USAC Profiles the Requirements Chair was also present.
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USAC ProfilesThe Convenor explained that there is a long-standing tradition in MPEG that a profile is within an MPEG specification. He noted that the proposed profile HE-AAC V3 contains the MPEG-4 profile HE-AAC V2 and the proposed MPEG-D profile USAC Baseline, restricted to level 2. He noted that it is prevalent for manufacturers to support multiple profiles in a single produce, e.g. a DVD player supports MPEG-1 Video profiles, MPEG-2 Video profiles, MPEG-4 Video profiles (and MPEG-2 Audio profiles), and hence manufactures could realize the “HE-AAC V3” functionality by conforming to:
HE-AAC V2 profile USAC Baseline profile Level 2
Hence, the Convenor emphasised that there is no need to deviate from the current scope that MPEG profiles have adhered to.As an alternative, the Convenor noted that USAC could be moved to MPEG-4, in which case the “V3” profile would be within a single MPEG standard.The Audio chair proposed that the two proposed USAC profiles be documented in an output document titled “Thoughts on USAC profiles” and that this topic be further studied and discussed with the goal of a resolution at the next MPEG meeting. The Chair noted that the “Study on USAC DIS” output document is silent on USAC profiles. The Chair further proposed that an Audio resolution ask National Bodies to study the “Study on” document when casting their ballot on the USAC DIS, and that this would make no reference to the “Thought on USAC profiles” document.USAC Verification Test ReportThe Convenor expressed the strong interest in having the performance of the USAC Common Encoder Reference Software tested in the USAC Verification Test. The Chair noted that he has repeatedly stated in MPEG plenary that the results of USAC Verification Test would be available prior to the close of the USAC DIS ballot, and that Yonsei University experts and ETRI experts indicated that the software would not achieve a sufficient level of performance before the late 2011 timeframe (e.g. October 2011). The Convenor proposed two paths forward:
Issue the USAC DIS in July, and refer National Bodies to the USAC Call for Proposals subjective test results, which already show the target performance for the RM0 technology. The USAC Verification Test is delayed until the USAC Common Encoder Reference Software is ready.
Delay the USAC DIS until after the USAC Common Encoder Reference Software is ready such that the Verification Test report can be made available prior to close of the DIS ballot.
Bernhard Grill, FhG, stated that his company is ready to go to market with USAC product, and cannot see how the MPEG or the marketplace will be served by delaying the standard or the Verification Test. He further stated that he pledges to commit FhG resources for a second USAC verification test in the late 2011 timeframe that could test the performance of the USAC Common Encoder Reference Software as compared to the USAC Reference Quality Encoder.It was agreed that the way forward shall be:
Execute the Verification Test Workplan as discussed in the Audio Subgroup such that the results are available in early July and process the USAC DoC and issue the UCAC FDIS at the July MPEG meeting.
Conduct an additional USAC Verification Test in late 2011 that will test the performance of the USAC Common Encoder Reference Software as compared to the USAC Reference Quality Encoder.
Gregory Pallone, Orange Labs, noted that binaural and multichannel tests could be performed during the additional USAC Verification Tests.USAC CE Process
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The Chair made the following remarks concerning the USAC CE process and concerning some CEs in particular.Now that the collaborative development phase of the USAC standard is nearly at an end, as the Audio Subgroup anticipates USAC progressing to FDIS at the 97th meeting, it is appropriate to review how well the USAC CE methodology has served us in developing this standard. During the course of collaborative development, there was considerable discussion concerning the lack of a common encoder source code platform for use in CEs. The Call for Proposals clearly states that the RM0 proponent and subsequent successful CE proponents must submit or integrate their encoder source code such that the encoder is conformant (to the current RM) but not necessarily able to produce the exact bitstreams (i.e. level of performance) as was demonstrated in the CfP or CE. Because of this, it was envisioned to create, as a collaborative effort in the Audio Subgroup, a common encoder source code base that would be of reference quality and hence could be used in the CE process as an alternative to the proponent Reference Quality Encoder.Now, at the end of the collaborative process, it is evident that the common encoder effort did not play a role in the CE process. Nevertheless, we envision it will be developed to have a level of performance such that it would be appropriate for inclusion in a future “follow-on” USAC Verification Test, although perhaps at a subset of operating modes.A second aspect of the USAC CE process is that N10664, “MPEG Audio CE methodology” states in part that:
The acceptance of a core experiment is decided by the consensus of the Audio subgroup, based on the requirements described in Annex B.
Annex B states, in part: New technology needs to demonstrate SIGNIFICANT IMPROVEMENT, where such
improvement is determined by consensus of the Audio subgroup when considering all evidence including subjective audio quality.
Hence the CE Methodology used in the USAC collaborative phase has considerable ambiguity, in that outcomes are determined by the consensus of the Audio subgroup when considering all evidence. During the course of the collaborative phase, CE proponents have repeatedly expressed concern that it is very difficult for them to predict the outcome of the check-phase of the CE process even after all check and cross-check performance information (e.g. listening test results) are known. I think the fundamental issue here is that the performance of some CEs fall into the “grey zone” in terms of judging significance of performance (i.e. performance that is not high enough to accept without discussion and not so poor that it is rejected without discussion).To take a specific example, Huawei experts and experts from other companies have noted that the CE acceptance procedure does not have clear rules as to what is accepted (or rejected). The Chair notes that Huawei has shown an ongoing commitment to the collaborative phase of the standardization process, bringing multiple CEs and also adding to the USAC Common Encoder Reference Software.In the case of the Huawei Adaptive Time/Filter Post-Processor Filter (ATFPP), Huawei experts feels that the objectives of the ATFPP CE, as expressed by Audio subgroup experts changed over the course of the CE such that it was not possible to clearly know the criterion for success. In the end, it appears that the ATFPP proposal, as a normative postfilter, is not deemed appropriate for MPEG standards in the opinion of some Audio subgroup experts. This was not clear to Huawei experts at the start of the CE proposal phase.In summary, the Chair stated that he feels very strongly that MPEG has created an excellent standard in USAC, but acknowledges that the collaborative phase, as represented by the CE process, could be be improved.David Virette, Huawei, stated that the position of Huawei is that the CE process must be improved.CE on Lossless coding of pitch lag.
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Takahiro Moriya, NTT, gave a short presentation summarizing the performance of this CE.The Chair called for a show of hands of experts that could not support adoption of this CE. Five experts from three companies indicated that they could not support the technology. Roch Lefebvre, VoiceAge, noted that he has studies this CE quite deeply, and does not see the benefit of the CE technology.Kristofer Kjorling, Dolby, noted that given the CE discussion, fairness dictates that it not be accepted.Werner Oomen, Philips, noted that the CE falls below the lower bar. There is no loss to the USAC specification if it is not accepted.The Chair stated that there was no consensus in the Audio Subgroup to accept the CE technology.Informative Adaptive T/F PPThe Chair asked whether there experts that objected to incorporating the Huawei Adaptive Time/Frequency Post Processor as in informative annex of USAC, “informative” meaning that there is no associated bit in the config or the bitstream and that implementing the post-processor in the decoder is optional.Bernhard Grill, FhG, requested that the text has been checked to confirm that it represents an informative post-filter (i.e. that it entails no bitstream changes). Max Neuendorf, FhG, stated that he had checked the text and confirmed that it represented an informative post-filter.It was the consensus of the ASG to incorporate the text for an informative version of the TF/PP technology into the informative Annex of the Study on USAC DIS.
Responses to Liaison and NB commentsLiaison statement and NB comment responses generated by Audio were presented and approved.
Recommendations for final plenaryThe Audio recommendations were presented and approved.
Establishment of Ad-hoc GroupsThe ad-hoc groups shown in the following table were established by the Audio subgroup. Unless otherwise indicated, Ad Hoc group meetings will be held at the location of the next MPEG meeting on the weekend preceding that meeting.
No. Title Mtg12023 AHG on USAC No
Approval of output documentsAll output documents, shown in 4, were presented in Audio plenary and were approved.
Press statementThere was no Audio contribution to the press statement.
Agenda for next meetingThe agenda for the next MPEG meeting is shown in Annex F.
All other businessThere was none.
Closing of the meeting The 96th Audio Subgroup meeting was adjourned Friday at 2:00 pm.
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1. ParticipantsThere were 30 participants in the Audio subgroup meeting, as shown in the following table.First Last Country AffiliationAbdellatif Benjelloun Touimi UK Huawei TechnologiesTi Eu Chan SG I2RToru Chinen JP SonyPhilippe Gournay Canada VoiceAge Corp. / Univ. of SherbrookeBernhard Grill DE Fraunhofer IISJürgen Herre DE Fraunhofer IISKyeong Ok Kang Korea ETRIKei Kikuiri JP NTT DOCOMOKristofer Kjörling SE DolbyFerenc Krämer DE DolbyNamsuk Lee KR Samsung ElectronicsRoch Lefebvre Canada VoiceAge Corp. / Univ. of SherbrookeTakehiro Moriya JP NTTMarkus Multrus DE Fraunhofer IISMax Neuendorf DE Fraunhofer IISMasayuki Nishiguchi JP SonyWerner Oomen NL PhilipsGregory Pallone FR Orange LabsHeiko Purnhagen SE DolbySchuyler Quackenbush USA ARLJulien Robilliard DE Fraunhofer IISJeongil Seo KR ETRIJeongook Song KR Yonsei UniversityLeon Terentiv DE Fraunhofer IISDavid Virette DE Huawei TechnologiesOliver Wuebbolt DE TechnicolorHaishan Zhong Singapore PanasonicJonas Svedberg Sweden Ericsson ABMinjie Xie USA ZTE CorporationJong Hoon Jeong KR Samsung ElectronicsJacek Stachurski USA Texas Instruments
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2. Audio Contributions and Schedule
No Title Authors TopicMonday0900-1300 MPEG Plenary1300-1400 Lunch1400-1500 Audio Plenary
Welcome and RemarksReport on Sunday Chairs meetingReview main tasks for the weekUSAC Finalize CEs Bitstream issues Verification TestMaintenanceExplorationGeneral
m19521 Report on USAC AhG S. R. Quackenbush Genm19971 95th MPEG Report S. R. Quackenbush Gen1530-1800 USAC
Maintenancem20034 Corrections to Reference Software and DIS
of USACMax Neuendorf USAC-MT
m20031 Additions to USAC specification Roch Lefebvre, Redwan Salami,Philippe Gournay, Bruno Bessette
USAC-MT
CEs in Integrationm20006 Corrections and additional information on
PVC part of USAC DISToru Chinen, Yuki Yamamoto, Mitsuyuki Hatanaka, Hiroyuki Honma, Masayuki Nishiguchi,
USAC-PVC
m20063 Information on Applause Classification for TSD
Sascha Disch, Achim Kuntz, Christian Uhle
USAC-TSD
Status of integration of:Increased struct. Flex. in SBR (1:4)Enhanced perf. at mid-bitratesQMF Harmonic TransposerLow-complexity decorrelatorOngoing CEs
m20007 Sony listening test report on lossless coding of pitch lag for ACELP CE
Mitsuyuki Hatanaka, Toru Chinen, Masayuki Nishiguchi,
USAC-PL
m20032 VA Crosscheck for NTT Pitch Lag Coding Philippe Gournay, Roch Lefebvre
USAC-PL
m20023 Additional information of CE on lossless coding of pitch lag for ACELP in USAC
Takehiro Moriya, Yutaka Kamamoto, Noboru Harada
USAC-PL
1800- HoD
Tuesday0900-1000 SAOC, MPSm20058 Report on corrections for MPEG SAOC Jonas Engdegård, Heiko
Purnhagen, Oliver Hellmuth, Jürgen Herre, Cornelia Falch, Leon Terentiv, Johannes Hilpert, Andreas Hölzer,
SAOC
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Werner Oomenm20062 Corrections to MPEG Surround reference
softwareAndreas Hoelzer, Johannes Hilpert, Christian Ertel, Ferenc Kraemer, Leif Sehlstrom, Heiko Purnhagen
MPS
1000-1300 USACEncoder
m20000 Further information regarding ETRI USAC Encoder
Taejin Lee, Seungkwon Beack, Minje Kim, Kyeongok Kang
USAC-Enc
m20026 Status report on USAC Reference Software JAME
Jeongook Song, Henney Oh,Hong-Goo Kang
USAC-Enc
1100-1300m20050 Additional information for the CE on
adaptive T/F domain post-processing for USAC
David Virette USAC-TF
Bitstreamm20069 Follow-up on proposed revision of USAC bit
stream syntaxMax Neuendorf, Markus Multrus, Stefan Döhla, Heiko Purnhagen, Frans de Bont, Julien Robilliard, Philippe Gournay,
USAC-BIT
1300-1400 Lunch1400-1500 Joint Meeting with Systems, Dash at Sys m19972 Thoughts on USAC /systems interaction S. R. Quackenbush USAC-BIT1700-1800 Profilesm20035 Proposed profiles for MPEG-D USAC Bernhard Grill, Max
Neuendorf, Roch Lefebvre, Kristofer Kjörling, Heiko Purnhagen, Werner Oomen
USAC-Prof
1800- Chairs Meeting
Wednesday0900-1100 MPEG Plenary1130-1300m20066 Proposed amendment to ISO/IEC 14496-3
MPEG-4 Bernhard Grill, Max Neuendorf, Roch Lefebvre, Kristofer Kjörling, Heiko Purnhagen, Werner Oomen,
USAC-Prof
Discuss and Concludem19972 Thoughts on USAC /systems interaction S. R. Quackenbush1300-1400 Lunch1400-1500 USAC CE Breakout1500-1800 Verification Testm20049 Proposal for MPEG-D USAC verification test David Virette USAC-VTm20052 Proposition for the USAC verification tests Gregory Pallone, Pierrick
PhilippeUSAC-VT
m20078 Proposed Workplan for USAC Verification Test
Roch Lefebvre, Heiko Purnhagen, Max Neuendorf, Werner Oomen
USAC-VT
1600-1700 Joint with MMT at Rm 18
Thursday0900-1300 USAC Open Issues
USAC reference decoder bugs
1000-1100 Joint with Req on Exploration at Audio
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m19570 22.2 multichannel sound material for testing 3D coder
Akio Ando Exp
m20107 Comments on High Efficiency Video Coding Jeongil Seo, Kyeongok Kang ExpReview of USAC Profiles
1300-1400 Lunch 1315-13451400-1800 USAC Open Issues
Verification Test USAC Profile
1800- Chairs Meeting
Friday0900-1300 Audio Plenary
ProfilesOpen Encoder WorkplanVerification Test WorkplanPitch Lag CEReport on Thursday Chairs meetingRecommendations for final plenaryEstablishment Ad-hoc groups and review AhG Mandates
1000 Get document numbers1030 Submit AhG Mandates and Resolutions
Approve Responses to NB comments and LiaisonApproval of output documents:Title: w10xx (short title).doc (NOT *.docx!)File w10xx.zipAgenda for next meetingReview of Audio presentation to MPEG plenary A.O.B.Closing of the Audio meeting
1300-1400 Lunch1400- MPEG Plenary
3. Task Groups
1. MPEG-2 and MPEG-4 Audio, MPEG Audio Conformance, MPEG reference software, MPEG Surround, SAOC
2. MPEG-D Unified Speech and Audio Coding3. Audio Exploration: Audio for HEVC
4. Output DocumentsNo. Title TBP Available
14496-3 – Audio12008 Request for ISO/IEC 14496-3:2009/Amd 3 No 11/03/25
12009 ISO/IEC 14496-3:2009/PDAM 3 Transport of Unified Speech and Audio Coding
No 11/03/25
23003-1 – MPEG Surround12010 DoC on ISO/IEC 23003-1:2007/AMD 2/DCOR 2.2 No 11/03/2512011 ISO/IEC 23003-1:2007/AMD 2/Cor 2 No 11/04/22
23003-2 – SAOC
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12012 Workplan on SAOC Conformance and Reference Software No 11/03/2523003-3 – Unified Speech and Audio Coding
12013 Study on ISO/IEC 23003-3:201x/DIS of Unified Speech and Audio Coding
No 11/04/21
12014 Thoughts on profiles for Unified Speech and Audio Coding No 11/03/2512015 Status and Workplan for USAC CEs No 11/03/2512016 Workplan for USAC Common Encoder Reference Software No 11/03/2512017 Workplan for USAC Verification Test No 11/03/25
Exploration – Future Audio12018 Audio for HEVC YES 11/03/25
Liaison Statements12019 Response to m19533, TC100/TA6 No 11/03/2512020 Response to m19534, TC100 No 11/03/2512021 Response to m19538, TC100/TA4 No 11/03/25
Promotion
12022 Unified Speech and Audio Coder Common Encoder Reference Software YES 11/03/25
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5. Agenda for the 97th MPEG Audio Meeting
Agenda Item1. Opening of the meeting2. Administrative matters
2.1. Communications from the Chair2.2. Approval of agenda and allocation of contributions2.3. Review of task groups and mandates2.4. Approval of previous meeting report2.5. Review of AhG reports 2.6. Joint meetings2.7. Received national body comments and liaison matters
3. Plenary issues4. Task group activities
4.1. MPEG-1, MPEG-2, MPEG-4, and MPEG Surround, SAOC4.2. Unified Speech and Audio Coding4.3. Exploration: Audio for HEVC
5. Discussion of unallocated contributions6. Meeting deliverables
6.1. Responses to Liaison and NB comments6.2. Recommendations for final plenary6.3. Establishment of new Ad-hoc groups6.4. Approval of output documents6.5. Press statement
7. Future activities8. Agenda for next meeting9. A.O.B10. Closing of the meeting
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Annex J – 3DG report
Source: Marius Preda, Chair
3DGC meeting reportGeneva, March 2011
1 Opening of the meeting
1.1 Approval of the agendaThe agenda is approved.
1.2 Goals for the weekThe goals of this week are:Discuss the software and conformance status for SC-3DMC in 3DGCM (MP25 AMD1)Review contributions related to 3D graphics aspects of MPEG-VReview contributions related to Representation of meshes with multiple attributes Status of refsoft and conformance for Part 16 Amd 1 (multiple attributes)
Request new AMd for part 5 and part 27Review contributions related to Multi-resolution 3D mesh codingReview RGC (reconfigurable graphics codec) contributionInvestigate future developments of MPEG 3D Graphics CompressionReview Liaisons Review the votesWeb-site
1.3 Standards from 3DGC
Std Pt Edit. Project Description CfP WD CD FCD FDIS Gr.4 5 2001 Amd.31 RS for Efficient
representation of 3D meshes with multiple attributes
11/01 11/03 11/07 12/02 3
4 16 201x Amd.1 Efficient representation of 3D meshes with multiple attributes
09/10 10/07 11/01 11/07 3
4 16 201x Amd.2 Multiresolution mesh coding
11/01 11/03 11/11 12/04 3
4 27 2001 Amd.4 C for Efficient representation of
11/01 11/03 11/07 12/02 3
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3D meshes with multiple attributes
1.4 Room allocation3DGC: 15
1.5 Joint meetingsDuring the week, 3DG had several joint meetings with Requirements, Video and Systems. They are indicated in pink in the agenda
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1.6 Allocation of contributions
N° Title Schedule ObservationD1 Monday D1
MPEG Plenary 09:00~12:00
Lunch Break 13:00~14:00
3DG Plenary
Roll call, Agenda, Goals, FAQ, Awareness Event etc., Marius Preda
14:00~14:30
M19519 Report of AHG on 3DGC documents, experiments and software maintenance
Resolution: accept the recommendations formulated by the AhG.
Francisco Moran
Ad Hoc Group on Multi-Resolution 3D mesh Coding
Resolution: accept the recommendations formulated by the AhG.
Khaled Mamou, Minsu Ahn, Xiangyang Ji
Results of voting. Marius PredaMulti-
Resolution 3D Mesh Coding (MR-3DMC)
Connectivity Coding for Multi-Resolution 3D Mesh
Summary: The explanation of the method of Alliez, which is the base of the proposed method. The proposed method is performing a local re-triangulation. It is proposed a prioritization of the gates.The compression performance is increased because the number of reduced vertices is increased.Resolution: Include the measure of the complexity under the form of the processing time. Report this for the next
Minsu Ahn, James D.K Kim
14:30 – 16:00
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N° Title Schedule Observationmeeting.
More results on texturing support for MR3DMC (Multi-Resolution 3D Mesh Compression)
Summary: The contribution is presenting a technique for measuring the error of texture encoding.
Resolution: AP: continue the experimentation and validate on other models. Think about joint coding of geometry and texture by considering the texture as a vertex attribute.
David Fuentes Sánchez , Francisco Morán Burgos
Joint with Video on
RVC/RGC
RGC implementation for QBCR
Summary: The contribution presents the design of several FUs for QBCR and the RVC-CAL implementation.
Resolution: update the CE with respect to objectives and procedure.
Christian Tulvan, Marius Preda 16:00-18:00 Room B106
Comments on the RGC implementation of M20067
Summary: presented together with the next contribution
Resolution: none
Seungwook Lee, Ji Hyung Lee, Sinwook Lee, Cui Li, Euee S. Jang
Contribution of SC3DMC FUs for RGC framework
Summary: proposal of some FUs inspired from 3DMC and
Seungwook Lee, Ji Hyung Lee, Sinwook Lee, Taehee Lim,
16:00-18:00 Room B106
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N° Title Schedule ObservationSC3DMC and the associated tokensProposal of describing the FUs with a diagram and the algorithm in text
Resolution: Make a new part of MPEG-4 for GTL
Sowon Kim, Minsoo Park, Euee S. Jang
D2 Tuesday D2MPEG-V Editorial comments on Part 7
Accepted10:00 – 13:00
Binarisation & Streaming
Update of BodyTemperatureTypeThe ABOType is using 3 bits since only 4 types can be detected by sensors.The ElectrographSensorType may contain several samples (controlled by the parameter numOfSamples). However the ElectrographSensorType will be in one single AU. Therefore, if a finer granularity is needed (eg one sample per access unit), this may be obtained by considering several AU.The ECG sensor type defines the waveform labels based on the combination between the electrodes placed at different positions.To define a WaveformLabelECG, WaveformLabelEEG. Same for EMG and EOG.There is no need for ElectrographSensorBaseAttribute type. The max value should go in the ElectrographSensorBaseType.
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Bend sensorProposal of the BendSensorChanneCapabilityType (diff number of locations, distance btw loc and axes). Also a diff number of channels is allowed.For the sensed information, the Bend sensor can contain one or several temporal samples. For each temporal sample, the whole spatial sensed data is provided (all bends, all axes, all sensed locations)
SoftwareAP: create the MPEG-V directory on SVN and upload the RefSoft (Christian Timmerer). Create a Utility directory. Camera type:Define a base capability type (includes resolution, color space, number of bit per pixel) and extend this type for both texture and depth images.Investigate if camera intrinsic parameters should be also part of the sensor characteristics
Lunch Break 12:00~14:00
14:00-18:00Joint meeting with requirements and systems on Collaborative BIFSAn architecture indicating a collaborative server on the server side, a collaborative agent. A set if definitions are presented.A set of requirements are presented.
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In the requirements document it should be kept only the ones related to the scene. The others go in the annex because they will not be addressed by the standard directly but by the referred ones (such as XMPP). Context and objective should be updated.MPEG-V/MPEG-UProblem: we should define the interfaces if we want to use the MPEG-U part 1.Solution: we can define the interfaces automatically from the schema definition of each type. Jean-Claude can provide a tool that converts the XSD into MPEG-U Part 1 Interface (InterfaceElement). This tool should be part of the utility software.
D3 Wednesday D3
MPEG Plenary 09:00~11:00
Joint with Video/Audio/Systems and Requirements
Augmented Reality
Summary: The objective of the discussion is to establish common understanding of what the AR applications are, to review the requirements and to identify potential MPEG related tools and technologies to address themResolution: An output document will be made available (document ww11832)
Marius Preda 11:00 – 13:00
Lunch Break 13:00~14:00
Technicolor symmetry encoder Mary-Luc Champel 14:00 –15h00
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RGC Review of RGC core experimentResolution documented in output "AFX Core experiment"" Seungwook Lee, all 15:00 –
17:30
Multi-Resolution 3D Mesh Coding (MR-
3DMC)
Revision of WD on MR-3DMCSummary: The current work is concentrated on the software implementation, therefore, there is no need yet to update the WD.Resolution: none
Minsu Ahn 17h30-18
D4 ThursdayMPEG-V BORGC BOMulti-Resolution BO
Lunch Break 12:00~14:00
3DG Plenary Preparing the 3DG output documents as shown in the table of output documents all 14:00~18:0
0D5 Friday D5
3DG Plenary Preparing the 3DG output documents as shown in the table of output documents all 10:00~12:0
0
Lunch Break 12:00~14:00
MPEG Plenary 14:00~
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2 General issues
2.1 General discussion
2.1.1 Reference SoftwareIt is recalled that the source code of both decoder AND encoder should be provided as part of the Reference Software for all technologies to be adopted in MPEG standards. Moreover, not providing the complete software for a published technology shall conduct to the removal of the corresponding technical specification from the standard.Currently all the AFX tools published in the third edition are supported by both encoder and decoder implementation.
2.1.2 Web siteThe new web site is available at http://wg11.sc29.org/3dgraphics/. It is a blog-based web site and all members are allowed to post.
3 Current Voting
Document title DoC Editor of DoCnone
4 General 3DG related activities
4.1 AhG on 3DG activities
Title Report of AHG on 3DGC documents, experiments and software maintenance
Authors Francisco MoranResolutio
n accepted
Title Ad Hoc Group on Multi-Resolution 3D mesh CodingAuthors Khaled Mamou, Minsu Ahn, Xiangyang JiResolutio
n accepted
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4.2 Promotions
4.2.1 Web SiteTitle Status of http://wg11.sc29.org/3dgraphics/
AuthorsSummary The web site is now empty, contributions are needed.Resolutio
nAction Point: Transfer the old web-site data to the new one.
4.3 Joint activities
4.3.1 MPEG-V - Information Exchange with Virtual Worlds (formally Metaverse)
MPEG number Created Uploaded Group
SubGroup Title Source
Binarisation
Recommendation for editing the AMDs: Work directly on the integrated text: a type should have two sections: Syntax (including XML and binary version) and Semantics (including details for both syntax representation). Recommendation for the design of the binary representation allowing streaming:- We should define start and end codes for MPEG-V and MPEG-V types- Check with Systems how MPEG-7 Visual Binary representation is combined in an MPEG ISO file or stream.Note: MPEG-7 Visual defines AU, the same principle should be used for MPEG-V
m20141 2011-03-16 06:16:31
2011-03-18 16:35:32
MPEG-VSystems
Binary representation for Bio-sensed Information
AP: change the BodyTemperatureSensorType into a one that extends the TemperatureSensorType.AP: change the size of ABOType into 4 bitsAP: change the dimY of ElectrographSensor in noOfSamples, change dimX in
Seungju Han, Jae-Joon Han, Wonchul Bang, James D.K. Kim
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numberOfChannels
Recommendation: clarify the Electrograph syntax to make the distinction between simple and complex signals (labels). Add a table explaining this. Update the semantics
m201422011-03-16 06:17:49
2011-03-18 16:36:30
MPEG-VSystems
Binary representation for Gas & Dust sensed information
Recommendation: accepted
Jae-Joon Han, Seungju Han, Wonchul Bang, James D.K. Kim
m201432011-03-16 06:19:20
2011-03-18 16:37:38
MPEG-VSystems
Binary representation for Bend sensor capability and sensed information
Summary:The proposed binarisation is reducing the data size by a factor 10. Proposal of binarisation for 16 bio-sensors, Gas and Dust, and Bend.
AP: change numOfSensors in numOfChannelsAP: propose a structure of the Bend sensor that is both spatial and temporarily aligned
Jae-Joon Han, SeungJu Han, Wonchul Bang, James D.K. Kim
m196752011-03-10 05:47:55
2011-03-17 06:09:04
MPEG-VSystems
Study of encoding and decoding of binary representation
Implementation of the encoding and decoding in Java that allows processing of generic types but also specific ones (one bit, variable bit length, …).
Recommendation: accept. Commit it as part of MPEG-V reference software in a Utility directory.
Sang-Kyun Kim, Yong Soo Joo
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CameraCamera Sensor Type and Command
AP: Use the RigidBodyMotionType type for the CameraCommandsType; add the zooming information.
AP: Add the characteristics of the sensor in the CameraSensorType
David Lou
Maintenance
m201952011-03-19 01:48:06
2011-03-20 05:46:17
MPEG-VSystems
Proposed modification for multi interaction point, gaze tracking and wind sensors
AP: change personIdx by personIDAP: Removing the Wind Sensor is not a good idea. Put it back.
Seong Yong Lim, Injae Lee, HeeKyoung Lee, Jihun Cha, YoungKwon Lim,
User Interface and Com20138 MPEG-U Hand based Interaction for
intuitive manipulation
Summary: The examples of Touch and Hand Interaction are described.
General discussion:Once again, the issue of splitting between MPEG-V and MPEG-U part 2 was extensively discussed for the case of gestures. The open problem is that the gesture is captured by the sensors and the scene can use it directly or processed by a intelligent software that extract the semantic of the gesture.The resolutions are:- design the gestures types without considering the possible splitting.
Jae-Joon Han, SeungJu Han, ByungIn Yoo, Changkyoo Choi, Dusik Park
150
- do the splitting in a joint meeting based on the consideration of the level of interpretation of the gesture
Software Maintenance (these contributions were not reviewed during the AhG meeting)
m195362011-02-22 07:52:57
2011-02-22 10:07:33
MPEG-VGeneral/All
Summary of Voting on ISO/IEC FCD 23005-7 SC 29 Secretariat
m200422011-03-14 15:41:23
2011-03-14 18:04:37
MPEG-VSystems
Editor's Input on MPEG-V Conformance and Reference Software
Markus Waltl, Christian Timmerer (on behalf of editors)
m200432011-03-14 15:43:20
2011-03-14 18:04:25
MPEG-VSystems
Austrian NB comments on ISO/IEC Study of FCD 23005-7
Christian Timmerer, Markus Waltl
4.3.2 Reconfigurable Graphics CodingSeveral joint meetings with Video RVC group took place to review the related contributions. The resolutions are reported in the table above.
4.4 Explorations 3DG group participates to the document w11832 Augmented Reality Applications, Functionnalities and Standardisation areas.
5 Liaisonnone
6 Output documents and Resolutions of 3DGC
1 Part 5 Reference Software No. Title TBP Available
14496-5 –Reference Software
11992 Text of ISO/IEC 14496-5 PDAM 31 Reference Software for Efficient representation of 3D meshes with multiple attributes
No 11/04/08
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2 Part 16 Animation Framework eXtension (AFX)
2.1 The 3DG subgroup recommends approval of the following documents
No. Title TBP Available14496-16 – Animation Framework eXtension (AFX)
11993 Description of 3DG Core Experiments No 11/03/25
3 Part 27 Conformance No. Title TBP Available
14496-27 –Conformance
12004 Text of ISO/IEC 14496-27 PDAM 4, Conformance for efficient representation of 3D meshes with multiple attributes
No 11/04/08
4 MPEG-V No. Title TBP Available
23005 MPEG-V11994 Overview of MPEG-V Part 1 Architecture Yes 11/04/0111995 Overview of MPEG-V Part 2 Control information Yes 11/04/0111996 Overview of MPEG-V Part 4 Virtual world object characteristics Yes 11/04/0111997 Overview of MPEG-V Part 5 Data formats for interaction devices Yes 11/04/0111998 Overview of MPEG-V Part 6 Common types and tools Yes 11/04/0111999 Overview of MPEG-V Part 7 Conformance and reference software Yes 11/04/01
5 23002-4 Video Tool LibraryNo. Title TBP Available
23002-4
12002 Request for ISO/IEC 23002-4:2010/AMD 3 Graphics Tool Library for Reconfigurable Multimedia Coding Framework
No 11/03/25
12003 WD1.0 of ISO/IEC 23002-4:2010/AMD 3 Graphics Tool Library for Reconfigurable Multimedia Coding Framework
No 11/04/25
5.1 3DG subgroup recommends to change the title of ISO/IEC 23002-4, "Video Tool Library" to "Multimedia Tool Library".
5.2 3DG subgroup recommends appointing Seung Wook Lee, Christian Tulvan, Matthieu Wipliez, Euee S. Jang, and Marius Preda as editors of ISO/IEC 23002-4:2011/AMD 3 Graphics Tool Library for Reconfigurable Multimedia Coding Framework.
7 Establishment of 3DG Ad-Hoc Groups
12005 AHG on 3DG documents, software maintenance and core experiments Mandate: 1. Maintain and edit 3DG documents
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2. Coordinate 3DG related conformance and reference software3. Coordinate editing of the www.mpeg-3dgc.com web site
Chairmen: Francisco Morán Burgos, Seung Wook LeeDuration: Until 97th meetingMeetings: Sunday before 97th meetingReflector: mpeg-3dgc AT gti. ssr. upm. esSubscribe: https://mx.gti.ssr.upm.es/mailman/listinfo/mpeg-3dgc
12006 AHG on Multi-Resolution 3D mesh Coding Mandate: 1. Design an integrated approach combining the PTFAN and KLPMC
techniques2. Provide a first version of the verification model software3. Continue the evaluation experiments4. Update the testing platform (MMW.com)
Chairmen: Khaled Mamou, Minsu AhnDuration: Until 97th meetingMeetings: Sunday before 97th meetingReflector: mpeg-3dgc AT gti. ssr. upm. esSubscribe: https://mx.gti.ssr.upm.es/mailman/listinfo/mpeg-3dgc
12007 AHG on Graphics Tool Library Mandate: 1. Design the GTL FUs (textual description and the block diagram
specifying the input/output interfaces and behavior) 2. Implement and test GTL FUs
Chairmen: Christian Tulvan, Seung Wook LeeDuration: Until 97th meetingMeetings: Sunday before 97th meetingReflector: mpeg-3dgc AT gti. ssr. upm. esSubscribe: https://mx.gti.ssr.upm.es/mailman/listinfo/mpeg-3dgc
8 Closing of the MeetingSee you in Torino.
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