companies which attended fundamental elements info day
TRANSCRIPT
© 2011/12/13/14/15/16 ARIC Aachen - all rights reserved 1
GNSS/Galileo
LTE (4G) for vehicle-to infrastructure-
communication (V2I)
pWIFI for vehicle-to-vehicle communication
(V2V)
Test- and Development Center on GNSS & Connected Mobility
The automotiveGATE
The railGATE
We are member of
Galileo
Pseudolites
Reference-
Station Monitor-and
Control-Station
4G/LTE-
Stations
Aerial view by ARIC with courtesy of tim-online.nrw.de
Contact: Martin Pölöskey call:+49-173-2730 440 mail: [email protected]
© 2011/12/13/14/15/16 ARIC Aachen - all rights reserved 2
GNSS Dynamic Calibration Site
(AGIT)
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Lage
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Geo-referenced
observation poles
(rel. accur. < 1 mm)
Geo-referenced
tracks
Dynamically testing, validation and calibration of positioning sensors
Gang car as carrier platform
incl. Device Under Test
Drive tracked and recorded by total station
Funded by EU
Aerial view by ARIC with courtesy of tim-online.nrw.de
Contact: Martin Pölöskey call:+49-173-2730 440 mail: [email protected]
2 of 3
Software development tools
Physical IP – Design of the building blocks of the chip
Processor and Graphics IP – Design of the brain of the chip
Power MgmtBluetooth
Cellular Modem
WiFi
SIM
GPS
Flash Controller
Touchscreen& Sensor Hub
Sensor Hub
Camera
Apps Processor
ARM IP and Technology Products (Virtual Components)
� Advanced consumer products are incorporating more and more ARM technology –from Processors and Multimedia-IP; to Software Tools and Utilities.
Early software development onVirtual Platforms
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ARM Interests in the GSA Call ...
� We are Available to Partner in a Proposal for "Low-End Receiver Core Technology"
� Well placed to assist with system architectural and performance evaluation ...� ARM IP knowledge and access
� Modeling experience, software tools, sensor fusion, power optimization, etc.
� Contacts with global Silicon & Systems companies, and Component suppliers
� Able to bring ARM technology to the Project for pre-commercial use� Subsequent production to be licensed as normal
� Contact:� Emre Ozer ([email protected]) or myself, Ian Phillips ([email protected])
� Both based in ARM HQ, Cambridge, UK.
(Note: ARM does not Design or Manufacture chips)
Ian Phillips 8Mar16
CEIT was created by the University of Navarra
Overview of CEIT-IK4 research center
Non profit Research Centre300 people120 Phd
MaterialsApplied MechanicsElectronics & CommunicationsEnvironmental EngineeringMicroelectronics & MicrosystemsBiomedical Engineering
Knowledge areas
Member of research alliance1200 people100M€ Turnover
RF Design Group
Electronics Design Group
Digital Design Group
Software Design Group
Antenna Design Group
Examples-Industrial Sector
• Analog design using Cadence -> RF and mm-Wave• ASICs design employing VHDL -> ASIC• On-wafer test and characterization
Expertise on
Low power GPS and GALILEO RF Front-EndEPC Gen2 UHF RFID System
All Rights Reserved. No part of this document may be reproduced, stored, or transmitted,
without the prior written permission of DEIMOS Space SLU (Photos ESA, Eumetsat)
Satellite Navigation (GNSS)
• DEIMOS is actively involved in all the European GNSS programmes since 2001: • Galileo: DEIMOS is responsible for three critical elements of Galileo Ground
Segment: • MGF: Message Generation Facility • MSF: Mission Support Facility (Reference Orbits and Clocks, HSISA and
PREC) • RDG: Raw Data Generator
• EGNOS V3: responsible for the performances and definition of the Data
Processing Segment of EGNOS V3
• GNSS Evolution: new integrity concepts (RAIMS), Inter-satellite links, Autonomous Satellite Navigation, Real Time Orbit Determination, etc
All Rights Reserved. No part of this document may be reproduced, stored, or transmitted,
without the prior written permission of DEIMOS Space SLU (Photos ESA, Eumetsat)
Receiver and Applications (GNSS)
• Multiple GNSS tools developed: • GRANADA GNSS SW Rx - Design and Application Environment • ESA Test User Segment • GNSS Receiver Performance Analysis tool
• Hardware based receiver:
• Receiver prototype based on COTS Hardware with user access to low level data • GPS and Galileo dual frequency (E1/L1 and E5a+b/L5) with 50 channels • Possible applications:
• GNSS-Reflectometry Applications (e.g. biomass, altimetry) , • Custom made DSP and Real-time data grabber streaming to PC
• Relevant projects:
• mapKITE is a Galileo GSA-funded project where a tandem terrestrial-aerial mapping system collects geodata for corridor mapping.
• COREGAL is a Galileo GSA-funded project where a low cost unmanned aerial platform and service for biomass mapping.
• AGGA4 Receiver Chip Emulation: Software simulation environment for the development and test of navigation SW targeting AGGA-4-based receivers
• Navigation in HEO/GEO/GTO/Moon orbits: Software simulation environment for the feasibility analysis of GNSS-based navigation for Lunar missions
EnduroSat designs, engineers and integrates remarkable CubeSat
platforms
Our Mission
http://endurosat.com
EnduroSat Innovations
Up to 50% increased payload volume
Up to 5X faster production and delivery
Up to 5X better performance
Designed as a multipurpose platform
Capability for mass production
Ideal test bed for new technologies
© Fraunhofer IIS 2
Fraunhofer Institute for Integrated Circuits IIS Our expertise
The Fraunhofer Institute for Integrated Circuits IIS is one of the world’s leading application-oriented research institutions for microelectronic and IT system solutions and services.
Fraunhofer IIS conducts top-level research for the immediate benefit of industry and the greater good of society.
For more than 20 years, positioning has been one of the key areas of expertise at Fraunhofer IIS’s Nuremberg location
100 engineers develop tailor-made prototypes and systems for partners and clients
Over 10 different positioning technologies are used in fields as diverse as production, logistics, automotive, trading and leisure
Contact: http://www.iis.fraunhofer.de/en/ff/lok/proj/goose.html
© Fraunhofer IIS 3
Fraunhofer IIS We provide GNSS-Receiver hardware
1. Integrated GPS/EGNOS/Galileo/GLONASS Receiver
Includes analog front-end and digital baseband, supports the processing of a large number of GNSS signals
High precision using two frequency bands
2. GPS-Galileo-Receiver hardware development platform with open software interface for e.g. deeply coupling
Embedded platform PC platform
Smart antenna
Development chain:
GNSS Centre of Excellence (GCE) was founded in 2012
• Professional association of legal entities
• Founding members:
- ANSP of Czech Republic
- Czech Railways
- Railroad infrastructure directorate
- Road & motorway directorate
• Associated members:
- SMEs
- R&D companies & R&D centres
- Universities
• Czech & Slovak overlay
GNSS Centre of Excellence
1 8.3.2016 Fundamental Elements Info Day
GNSS Centre of Excellence
8.3.2016 Fundamental Elements Info Day 2
Main objectives:
• To promote the development of GNSS applications in the Czech Republic via cooperation of the founding members with industry and the academic sphere
• To bridge demand for applications with R&D capability and potential of Czech (and Slovak) companies.
• To accelerate the development and deployment of applications based on EGNOS and in the future on GALILEO
• To promote the image of the members of the association as innovative companies that develop and use modern technologies
Activities (examples):
• Database of R&D companies and GNSS related products / projects
• Coordinator of the H2020 project „CaBilAvi“
1
ISS founded in 1994
•Cofounded with them the Czech Space Alliance in 2006
•ISS won 50% of all Czech industry contracts in PECS
•ISS won more contracts in the industry incentive scheme than other Czech companies
•ISS won the 1st ESA competitive contract (ACS prime)
•ISS continues in the top group of CZ contracts
•ISS Managing Director repeatedly voted the CSA president
•12 years ESOC staff member, and in space since 1975
2
Developed several tools for ESA:
Educational tools – SBAS TeACHER (encode/decode message), SBAS MeNTOR (encode/decode sequence of messages)
SBAS Simulator (system volume simulator developed in Java, capable of xDOP, xDOC, continuity, xPL, accuracy – and other – simulations)
EVORA (real-time GNSS performance analysis tool, reads GNSS data via NTRIP from e.g. IGS stations, produces through-out assessment of GNSS performance over area).
MCLTGA/SENDAI (post-processing GNSS performance analysis, contains fast ARAIM in C and clock-orbit errors, using SP3 products)
About us Leading European independent economic consultancy
Dedicated team specialised in the space sector (2007+)
Expertise in market quantification, socio-economic impact
assessment, business / investment case evaluation
Established working partnerships with leading market and Rx technology experts
Proven track record and unrivalled reputation as
experts in the economics of space
About me Greg Sadlier, Associate Director
Head of Space team, London Economics
13 years professional consulting experience
‘Expert’, IAF Space Economy Technical Committee
Continuous support to GSA MKD since 2010: • GNSS market quantification & forecasting (MMFP)
• 8 segments, >80 applications, 6 regions
• GNSS Market Reports (Modellers & lead authors)
• Cost-Benefit Analysis & Impact Assessments
• Global GNSS Industry Database
• Technology Monitoring Process
• R&D impact analysis
• User requirements
• Etc …
What can we offer to you?
Independent, reputable market assessments,
Business Plans and Cost-Benefit Analysis
that the GSA know and trust
Greg Sadlier
London Economics +44 (0)20 3701 7707 | [email protected]
londoneconomics.co.uk/aerospace | @LE_Aerospace
www.m3systems.net P. 1 November 2015
ENGINEERING SERVICES & PRODUCTS
Simulate, Collect, Process and Improve trajectories
for critical applications
GNSS signal
processing
Multipath reject
Multi sensor fusion
Test & measurement
Solutions based on
NI Platforms
Data collection
and mobile
applications
www.m3systems.net P. 2 November 2015
Urban Delivery (Wallonia Region)
Autonomous Vehicle (GSA projects)
Key R&D Domains
UAV Applications • Reflectometry ( MISTRALE – GSA) • ATM insertion (SKYOPENER – GSA)
GNSS algorithms & SDR • RX DGA ( French MOD) • MIMOSA & hybridisation ( National R&D) • CLEE virtual Platform (Regional R&D) • NAVISHUR – GNSS & IMU ( French MOD)
Critical ITS applications
Contact points : M3S France: Mark DURY – [email protected] M3S Belgium : Olivier DESENFANS – [email protected]
Nottingham Geospatial Institute
World Leading Geospatial Research
– Fifty year heritage
– Education, training & research
– Business engagement & support
– Experience with ESA/EC funding
Positioning & Navigation Technologies
– Robust & resilient, multi-constellation GNSS
– Terrestrial positioning & inertial sensors
– Adaptive data processing & integration
– GNSS Receivers & signal processing
Indoor Navigation
– Collaborative, context aware, multi-sensor
Transport Applications
– Aerospace, pedestrian, rail, road, maritime
Nottingham Geospatial Institute
Nottingham Geospatial Institute
Advanced GNSS Research
– Multi-constellation GNSS
– Robust and resilient GNSS (ARAIM)
Simulation & Testing
– Advanced GNSS simulation & modelling
– Specialised testing facilities
Knowledge Transfer & Business Engagement
– Proposal writing & project management
– Contacts across many application domains
– Dissemination, training and outreach
What we can Offer
All rights reserved © 2016 Qascom S.r.l.
GNSS Authentication & Robust PNT
Italian SME: engineering services/products in GNSS,
authentication, software/hardware security, cryptography,
cyber intelligence
Currently designing and developing GNSS authentication
schemes for Galileo Commercial Service (E6), Open
Service (E1) and EGNOS
RF interference geo-location solutions for space, ground infrastructures and
mobile assets
GNSS threats simulators and security testbeds:
With interference and authentication features
For testing of professional and mass market receivers
For applications like road, timing, railways, LBS, avionics
All rights reserved © 2016 Qascom S.r.l.
Available solutions for robust GNSS
receivers
Galileo Open & Commercial Service authentication
implemented in receivers
Server based remote processing of PVT and authentication
Anti-spoofing and anti-jamming technologies for mass
market and professional receivers:
Autonomous and assisted
Inertial Sensor, DSP, Navigation, signal of opportunities
SDR receiver (E1, E6)
Software and hardware security
GNSS
Connectors
Metal Shielding
SEC micro
Tamper detection Mesh
UART
Interface
UFL
Connector
SUP
Epoxy glue
Inner layers
Digital Inertial Sensor
INS AntispoofingModule
Odometer
PVT
InterfaceCOTS GNSS Rx
Antenna 1
Antenna 2
DSP Spoofing Mitigation
Authentic PVT
PC
Authentic PVT
Section 2b: DSP Antispoofing
Section 1: INS Antispoofing Section
Alessandro Pozzobon Samuele Fantinato
[email protected] [email protected]
Qascom S.r.l., Italy www.qascom.com [email protected] ph. +39 0424 525473
© Copyright QinetiQ Limited 2015 COMMERCIAL IN CONFIDENCE
QinetiQ Secured Navigation
Depended on when accurate position and timing is mission-critical
QinetiQ’s Secured Navigation solutions allow our users to receive, trust and rely on their position, navigation and timing information, in the most demanding environments and circumstances, where that information is mission-critical.
From public safety to soldiering to weapons, and from CNI to mission critical commercial applications, our varied Government and civil customers necessarily demand exceptional GNSS receiver performance:
• High accuracy across environments (urban canyons to high latitudes)
• High resilience to interference (accidental and deliberate)
• High robustness (multiple constellations, frequencies and services)
• High dynamics (acceleration, speed, spin, time to first fix)
• High ease of integration (interfaces, size, weight and power, non-ITAR, low user burden)
Underpinned by broad GNSS, security and engineering skills from which we also provide consultancy, R&D and solution services.
1
© Copyright QinetiQ Limited 2015 COMMERCIAL IN CONFIDENCE
SecNav Capabilities and Solutions
2
[Source: © ESA - P. Carril]
Next Generation
Q40/Q50 OS/PRS Receivers
PRS Q35 MC/MF SEM-E Receiver
IOV PRS Receiver
Test User Receiver (Instrumentation)
NextGen Receiver Roadmap
QinetiQ Q20 GPS Chipset QinetiQ Autonomy Research GPS Anti-Jam Antenna (GAJT)
Achieving World firsts in Galileo, PRS and beyond
Sogei S.p.A. - Sede Legale Via M. Carucci n. 99 - 00143 Roma
Sogei
8°March 2016 1
Sogei was created in 1976 to develop a modern Tax Information System, in order to automatically manage checks on income tax returns and to monitor tax withholdings
Since 2002, following the acquisition of the entire share capital by the Ministry of Economy and Finance, the company has become the IT partner of the Financial Administration, and has developed the fiscal administration's IT systems and relevant services for Italian Tax Revenues Agency, Customs Agency, other Institutions
Today Sogei is an integral part of the Italian tax system, and continues to develop ad hoc solutions for modernizing and automating the Public Administration
2014 Financial Statements Data
Profit
21.379 M €
Employees
2145
Member of:• Galileo Services• RTCM
Roberto Capua
Sogei S.p.A. - Sede Legale Via M. Carucci n. 99 - 00143 Roma
Sogei’s Research and Development Projects
8°March 2016 2
GRDNet (GNSS R&D Network): Multi-Reference Stations GNSS Augmentation Network able to provide 24/7 services for High Accuracy Positioning; manufacturer-neutral Software
Sogei GNSS SDR: GNSS Software Receiver, it is a Software Receiver running in Real-Time on Notebook and Tablets able to work with GPS/EGNOS/Galileo and to perform RTK; Internally designed Front-End and Software
Geopoi® (Geocoding points of interest): a cutting edge Web Mapping Framework offering an easy way to navigate into a representation of the whole country (with location intelligence and geographic context analysis)
Roberto Capua
Tomasz Borejko GSA Fundamental Elements Info Day – Prague, 8 March 2016 1
Dual-constelation GALILEO and GPS receiver in nanometer CMOS technology for precise positioning
of mobile objects
Tomasz Borejko, Ph.D.
ChipCraft Sp. z o.o.
Warsaw University of Technology, POLAND
Tomasz Borejko GSA Fundamental Elements Info Day – Prague, 8 March 2016 2
Technical data Simultaneous signals reception from two systems: Galileo and GPS
Simultaneous dual-frequency reception: L1/E1: 1575.42 MHz and L5/E5: 1176.45 MHz
SBAS signals reception: EGNOS (Europe), WASS (USA), MSAS (Japan)
Position accuracy: < 1 m (pseudoranges), < 20 cm (carrier phase)
Time To First Fix (TTFF): hot start < 2 s, cold start < 35 s
Additional wire communication protocols i.a.: UART, SPI, I2C, RS-485
PPS output with time synchronization error < 10 ns
Low power consumption
Dedicated multi-band antenna
Fast acquisition and tracking of multiple satellites simultaneously
NMEA, proprietary format and raw data output
Evaluation board with a reference design for system integrators (OEM)
Ionospheric corrections in real time regardless of SBAS
Proprietary multi-core 32-bit embedded navigation microprocessor
The Locating Company
Company Profile
1
TeleOrbit GmbH, Nuremberg, Germany
TeleOrbit GmbH is a privately owned marketing and sales company providing innovative satellite
navigation technologies and solutions incorporating satellite navigation, satellite communication and
geoinformation.
TeleOrbit closely cooperates with strategic partners Fraunhofer IIS, Germany and TeleConsult
Austria.
TeleOrbit develops and operates GNSS based services and provides project and quality management
consultancy support.
TeleOrbit established an exclusive distributor network for most important Asian & Pacific and
American regions.
© TeleOrbit GmbH | March 2016
The Locating Company
Technology Products
2
GNSS Simulation & Receiving Technologies / Products
© TeleOrbit GmbH | March 2016
GIPSIE® - Software Simulation Tools
GPS, Galileo, GLONASS, BeiDou, QZSS, IRNSS, and SBAS satellite constellation
and signal simulation software.
GTEC© - GNSS Front-end & Up-converter
High-end GNSS ultra wide band L-/S-band radio frequency recording and
replaying technology.
GIMT - GNSS
Interference
Monitoring
Jamming
- detection
- classification
- localisation
© TeleConsult Austria GmbH
© Fraunhofer IIS
© TeleConsult Austria GmbH
© 2014, Thales Alenia Space
���������� ���� �����������������������
GNSS Ground Reference Stations
RIMS-B
EGNOS V2 RIMS-E S/S
EGNOS V3 RIMS-V3 S/S
GALILEO GRCN IOV/FOC
IONO MONITORING RECEIVERS (GISMO/MISW/BELS)
GNSS User and Safety-of-Life Receivers
• TEST USER RECEIVER
• RAIL User Terminal
• SW RECEIVER and SW Tools
• PEGASUS Galileo Platform
GNSS User and Safety-of-Life Receivers
• TEST USER RECEIVER
• RAIL User Terminal
• SW RECEIVER and SW Tools
• PEGASUS Galileo Platform
3
© 2014, Thales Alenia Space
TAS GNSS Capabilities & Technologies
4
GNSS RX
Design
Capabilities
• Full internal Receiver design capability
• Algorithms modeling and simulation
• System Level, Mission and Performance Analysis
• Development & Qualification processes according to ECSS, DO-178/278/254,
GSWS, DRD920
Technology
Coverage
• Digital Channel Correlators based on AGGA and on proprietary GALVANI
Virtex FPGA design
• Proprietary Signal Processing SW for GPS/GAL/GLO
• Proprietary Navigation Processing SW
• Integrity Processing with EGNOS/GALILEO and RAIM
• Multi-sensor Data Fusion filtering
• Full SW Radio design (SWAN)
• Performance analysis tools and Orbital Analysis
• Proprietary SW Simulation tools
Downstream
Market
• Long lasting expertise in Search & Rescue
• At the origin of LBS in the early 2000’s
• Expertise on Rail and Maritime Applications
• High Accuracy, Critical and Secured Applications
• Patents on Timing Applications
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• True distance measurement based on time-of-flightbetween two or more TraceWave nodes
• 3-D angle measurement between TraceWave nodes
• Uses 2.4 GHz and/or 5.8 GHz bands
• Low-power wireless communication link of 1 Mbps
• Range: indoors typically 30 m, outdoors 300 m
• Accuracy: typically 10 cm @ 10 m
• Ideal combination with Galileo GNSS
© 2016 TraceWave GmbH – Company Confidential Page 1
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© 2016 TraceWave GmbH – Company Confidential