4g lte mobile broadband overview
TRANSCRIPT
In CAPITALS
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4G LTE MOBILE BROADBANDOVERVIEW
SIGIT PRIYANGGORO
http://about.me/sigit
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Introduction
Cellular Technology Overview
IP & Cellular Technology
4G LTE Technology Overview
Summary
Disclaimer:
all materials taken from publicly available sources (references provided at the end of the slides), no company represented, all opinions are my
own
AGENDA
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INTRODUCTION
SIGIT PRIYANGORO
Was born in Bandung, J 1984
All Bandung school euy!:
› SDN Sukarela II, SMPN 8 Bandung, SMAN 3 Bandung
› ITB – Telecommunication (2002 – 2006)
Part time jobs as student:
› Physics teacher at BKB Nurul Fikri (2004 – 2006)
› System Analyst at PT LAPI Networks ITB (205 – 2006)
› ITB – Planologi/Lab RADAR/Lab Telematika Network Admin
Career
Associate Consultant at Packet Systems Indonesia (PSI) 2006 – 2007
Solution Architect at Ericsson Indonesia (2007 – 2011)
Solution Architect at Ericsson North America (2011 – now)
Master Student at University of Texas (2011 – now)
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30 pt
Text
18 pt
5
16 pt
Introduction
Cellular Technology Overview
IP & Cellular Technology
4G LTE Technology Overview
Summary
Disclaimer:
all materials taken from publicly available sources (references provided at the end of the slides), no company represented, all opinions are my
own
AGENDA
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TELCO SERVICES, CAN’T LIVE WITHOUT IT
› Services Domain– Voice & Messaging
– Data
– Multimedia
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VOICE AND DATA TRAFFIC TRENDS
Shift on traffic and revenues from Services from Voice/Messaging to Data
http://gigaom.com/2012/04/29/as-mobile-data-zooms-voice-sms-revenues-slow/
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VOICE AND MESSAGING WILL NOT DEAD
But data traffic
increases
exponentially
http://blogs.sybase.com/wdudley/
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DATA SERVICES, GADGETS, IOS AND ANDROIDS, APPS!!
At the early development, Laptops and Dongles dominates,
but since 2010 onwards Smartphone growth is
phenomenal!!
http://gigaom.com/2012/04/29/as-mobile-data-zooms-voice-sms-revenues-slow/2012-04-26-portfolio-segmentation/
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Data services, gadgets, apple & androids, apps!!
http://agbeat.com/wp-content/uploads/2011/07/McDonalds-versus-iphone-versus-android.jpg
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SHOW ME THE MONEY
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SHOW ME THE MONEY
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SHOW ME THE MONEY
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CELLULAR TECHNOLOGY DOMAIN
AND TELECOM CAREER
Radio Access NetworkTransport Network
Core NetworkOSS/BSS/Application Layer
2G/3G/4G
CDMA
DWDM
METRO E
SATELLITE
MICROWAVE
VOICE CORE
PACKET CORE
2G CORE
3G CORE
4G CORE
MONITORING, KPI, PLANNING, BILLING, CUSTOMER SERVICE
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RADIO ACCESS NETWORK
Function
A radio access network (RAN) is part of a mobile telecommunication system. It implements a radio access technology. Conceptually, it resides between a device such as a mobile phone, a computer, or any remotely controlled machine and provides connection with its core network (CN). Depending on the standard, mobile phones and other wireless connected devices are varyingly known as user equipment (UE), terminal equipment, mobile station (MS), etc.. RAN functionality is typically provided by a silicon chip residing in both the core network as well as the user equipment.
Deployment
Distributed throughout regions, for example Sumatera Utara, SUmaterea Selatan, Jawa Barat, etc
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RADIO ACCESS NETWORK
Node
› GRAN: GSM radio access network: BSC (Base Station Controller)
› GERAN: essentially the same as GRAN but specifying the inclusion of
EDGE packet radio services: BSC
› UTRAN: UMTS radio access network (3G): RNC (Radio Network
Controller)
› E-UTRAN: The Long Term Evolution (LTE) high speed and
low latency radio access network: eNodeB (evolved Node B)
Vendor
Ericsson, Nokia Siemens Network,
Huawei, Alcatel Lucent, Samsung, ZTE
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RADIO ACCESS NETWORKCompetence Profile for RAN Engineer & Jobs Example from
www.ericssonusjobs.com
- Radio Frequency concepts
- IP technology concepts
- UNIX operating system
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TRANSPORT NETWORK
Function
A Transport Network connects RAN sites that are distributed throughout regions to the Core Network. Transport network was popularly deployed by TDM technologies (E1, T1), ATM technologies and now IP/Ethernet technologies and optical networks. Microwave Radio technologies also deployed between Radio sites and BSC/RNC Sites.
Deployment
Distributed throughout regions, connecting remote regions into centralized Core Network Sites. For Example transport from Pangandaran Area to Core Network Site in Bandung.
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TRANSPORT NETWORK
Node
› IP: Routers/Switches
› Ethernet: Metro Switches
› Microwave: point to point antenna
› Optical: Optical Swiches, DWDM, etc
Vendor
Cisco, Juniper, Cisco,
Nokia Siemens Network,
Huawei, Alcatel Lucent, Samsung, ZTE
Ceragon, etc
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TRANSPORT NETWORKCompetence Profile for Transport Engineer & Jobs Example from
www.ericssonusjobs.com
- TCP/IP concepts
- QoS technology concepts
- Routing/Switching
- Microwave concepts
- Optical Networking
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CORE NETWORK
Function
A core network, or network core, is the central part of a telecommunication
network that provides various services to customers who are connected by
the access network.
Core network centralize the processing/routing/mobility and session
management of UE and act as gateway to the internet for data communication.
Deployment
Centralized in capital cities. For example: Medan for Sumatera Utara, Surabaya for Jawa Timur.
Orang Core jarang jalan-jalan, orang Radio/Transmisi sering jalan-jalan
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CORE NETWORK
Node
› Voice: MSC (Mobile Switching Center), M-MGw (Media Gateway), HLR (Home Location
Register), etc
› Data: SGSN (Serving GPRS Support Node, GGSN (Gateway GPRS Support Node),
PCRF (Policy & Charging Rule Function) etc
Vendor
Ericsson, Cisco, Juniper,
Nokia Siemens Network,
Huawei, Alcatel Lucent, Samsung, ZTE
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CORE NETWORKCompetence Profile for Core Network Engineer & Jobs Example
from www.ericssonusjobs.com
- TCP/IP concepts
- QoS technology concepts
- Routing/Switching
- 2G/3G Voice Call Flow
- 2G/3G Data Call Flow
- SS7/SIGTRAN
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OSS/BSS/APPLICATION LAYER
Function
Operations support systems (also called operational support systems or OSS)
are computer systems used by telecommunications service providers. The
term OSS most frequently describes "network systems" dealing with the
telecom network itself, supporting processes such as maintaining network
inventory, provisioning services, configuring network components, and
managing faults. The complementary term business support systems or BSS
is a newer term and typically refers to “business systems” dealing with
customers, supporting processes such as taking orders, processing bills, and
collecting payments. The two systems together are often abbreviated
OSS/BSS, BSS/OSS or simply B/OSS.
Deployment
Centralized in capital cities. For example: Medan for Sumatera Utara, Surabaya for Jawa Timur.
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OSS/BSS/APPLICATION LAYER
Node
› OSS (Operation Support System)– Begadang di NOC :D
› Provisioning System
› Customer Service System
› IN (Intelligent Network): billing
VendorEricsson, Cisco, Juniper,
Nokia Siemens Network,
Huawei, Alcatel Lucent,
Samsung, ZTE
Amdocs, Sandvine,
Local IT Vendor
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OSS/BSS/APPLICATION LAYERCompetence Profile for OSS Engineer & Jobs Example from
www.ericssonusjobs.com
- TCP/IP concepts
- SNMP
- UNIX Scripting
- FCAPS
- LDAP/CORBA/SOAP
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$SALARY$ :D
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TELCO BUZZWORDS EXPLAINED
LTEGPRS/EDGE
HSPA/HSDPA/HSUPA/HSPA+3GPP
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TELCO BUZZWORDS EXPLAINED
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TELCO BUZZWORDS EXPLAINED
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3GPP.ORG (BUKAN .3GP :p)
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3GPP.ORG
PACKET NETWORK ARCHITECTURE
Gb Iu
Abis Iub
http://wwwen.zte.com.cn/endata/magazine/ztetechnologies/2010/no8/articles/201008/W020100816401860907125.jpg
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3GPP.ROG
STANDARDIZED CALL FLOW ue move from lte to 3g area example (multivendor should work)
http://farm5.static.flickr.com/4011/4180517009_fdfe6b59bc_o.jpg
Slide title
30 pt
Text
18 pt
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16 pt
Introduction
Cellular Technology Overview
IP & Cellular Technology
4G LTE Technology Overview
Summary
Disclaimer:
all materials taken from publicly available sources (references provided at the end of the slides), no company represented, all opinions are my
own
AGENDA
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IP & CELLULAR TECHNOLOGY
10 – 15 years ago, there’s telecommunication world AND internet world
but now telecommunication players embrace
internet (internetan dari hp misalnya)
internet players embrace telecommunication (skype, google voice misalnya)
CONVERGENCE
triple play voice data video
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IP & CELLULAR TECHNOLOGY
L2 TRANSPORT
VLAN
In computer networking, a single layer-2 network may be partitioned to create multiple
distinct broadcast domains, which are mutually isolated so that packets can only pass
between them via one or more routers; such a domain is referred to as a Virtual Local
Area Network, Virtual LAN or VLAN.
Metro Ethernet
A metropolitan-area Ethernet, Ethernet MAN, or metro Ethernet network is
a metropolitan area network (MAN) that is based on Ethernet standards. It is commonly
used to connect subscribers to a larger service network or the Internet. Businesses can
also use metropolitan-area Ethernet to connect their own offices to each other. An
Ethernet interface is much less expensive than a SONET/SDH or PDH interface of the
same bandwidth.
Optical Networking
Synchronous Optical Networking (SONET) and Synchronous Digital Hierarchy (SDH)
are standardized protocols that transfer multiple digital bit streams over optical
fiber using lasers or highly coherent light from light-emitting diodes (LEDs).
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IP & Cellular Technology
L2 TRANSPORT
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IP & CELLULAR TECHNOLOGY
MPLS VPN
MPLS VPN is a family of methods for harnessing the power of multiprotocol label
switching (MPLS) to create virtual private networks (VPNs). MPLS VPN gives
network engineers the flexibility to transport and route several types of network
traffic using the technologies of a MPLS backbone.
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IP & Cellular Technology
MPLS VPN
Iu VPN S1 VPN
S11 VPN
SGi VPN
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IP & CELLULAR TECHNOLOGY
QoS (Quality of Service)
The quality of service (QoS) refers to several related aspects
of telephony and computer networks that allow the transport of traffic with
special requirements. In particular, much technology has been developed to
allow computer networks to become as useful as telephone networks for audio
conversations, as well as supporting new applications with even stricter
service demands.
RAN QoS
Transport QoS
Core Network QoS
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IP & Cellular Technology
QUALITY OF SERVICE
Pay more, Get more!
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IP & Cellular Technology
QOS
Dotted line prioritized over straight line: DSCP, MPLS TOS, etc
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Introduction
Cellular Technology Overview
IP & Cellular Technology
4G LTE Technology OverviewDRIVER: DATA EXPLOSION
TECHNOLOGY EVOLUTION
DATA FLOW COMPARISON
Summary
Disclaimer:
all materials taken from publicly available sources (references provided at the end of the slides), no company represented, all opinions are my
own
AGENDA
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4G LTE Technology OverviewTERMINOLOGYhttp://www.3gpp.org/LTE (specs downloadable for free)
LTE or the E-UTRAN (Evolved Universal Terrestrial Access Network) is the access part of the
Evolved Packet System (EPS). The Core Network of EPS is called Evolved Packet Core (EPC)
LTE is marketing buzzword EPS
LTE
EPC
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4G LTE Technology OverviewDATA EXPLOSION
Data Explosion
There are multiple factors contributing to explosive growth in
data consumption, but first and foremost is the
combination of powerful mobile computing platforms
and fast mobile broadband networks. Despite the
number of vendors and platform types available on the
device side, the industry is converging on what might be
considered a “standard” platform for smartphones and
also one for tablets.
http://www.4gamericas.org/documents/4G%20Americas%20Mobile%20Broadband%20Explosion%20August%2020121.pdf
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Data Explosion
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Data ExplosionThe rich
capabilities of
these mobile
platforms
enable them to
consume even
larger amounts of
data through
activities
such as
• music and video
streaming
• social
networking
• cloud-based
synchronization
and applications
• web browsing
and content
downloading.
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Data Explosion
Source: Cisco, “Cisco Visual Networking Index:
Global Mobile Data Traffic Forecast Update, 2011– 2016,” February 14, 2012.
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New Smartphones Released every 2 – 4 months!!!
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4G LTE Technology OverviewWireless Technology Evolution
Despite rapid deployments of LTE networks, it will be the middle of the decade
before a large percentage of subscribers will actually be using LTE (or LTE-
Advanced). During these years, most networks and devices will support the full
scope of the 3GPP family of technologies (GSM-EDGE, HSPA, HSPA+, and LTE).
The history of wireless-network deployment provides a useful perspective. GSM/2G,
which in 2009 was still growing its subscriber base, was specified in 1990 with
initial networks deployed in 1991.
The UMTS/3G Task Force established itself in 1995, Release 99 specifications
were completed in 2000, and
HSPA+ specifications were completed in 2007. Although it’s been more than a
decade since work began on the technology, only now is UMTS deployment and
adoption starting to surge.
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Wireless Technology Evolution
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Wireless Technology Evolution
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Wireless Technology Evolution
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4G LTE Technology OverviewData Flow Comparison 2G 3G 4G-LTE (simplified)
OPERATOR XYZ
PUNYA LICENSE 2G, 3G DAN LTE DI INDONESIA(MISALKAN)
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Network Reference 2G
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4G LTE Technology OverviewData Flow Comparison 2G 3G 4G-LTE (simplified)
2G/EDGE DATA FLOW
BTS
BSC
SGSN
GGSN SGSN
BSC
BTS
E1 ~ 2 Mbps
E1 ~ 2 Mbps
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Network Reference 3G
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4G LTE Technology OverviewData Flow Comparison 2G 3G 4G-LTE (simplified)
3G DATA FLOW
NodeB
RNC
SGSN
GGSN SGSN
RNC
NodeB
ATM ~ 155 Mbps
ATM ~ 155 Mbps
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Network Reference LTE
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4G LTE Technology OverviewData Flow Comparison 2G 3G 4G-LTE (simplified)
LTE DATA FLOW
eNodeB
RNC
MME
PDN-GW MME
RNC
eNodeB
DWDM 10 Gbps
DWDM 10 Gbps
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WITH THAT CAPACITY AND
THROUGHPUT
LTE WILL BE THE ENABLER
OF………………..
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Cisco.com
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MORE ADVANCED TOPIC
VoLTE
IMS
Machine 2 Machine Comm
SMARTGRID
Deep Packet Inspection
Call Flow
Radio Modulation
Next time, Next presenter…
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SUMMARY
Teknologi seluler menarik dan berkembang pesat (10 tahun lalu HP masih jarang, sekarang??)
Teknologi seluler bisa menjadi pilihan karir yang menarik
Agar bisa berkiprah di level global
Teknologi IP/IT dan teknologi telekomunikasi sekarang converged: penting untuk punya multi skill
Selain mengasah hard skill, human skill seperti “networking” gak kalah penting
Berkarir internasional?
Indonesia Bisa!!
SOURCES & FURTHER READINGS
• http://www.ericsson.com/res/docs/whitepapers/wp-4g.pdf
• http://cdn.ttgtmedia.com/searchTelecom/downloads/SearchTelecom_Fundamentals_of_LTE_Chapter_1.pdf
• http://www.cisco.com/en/US/solutions/collateral/ns341/ns973/white_paper_c11-624446.pdf
• http://www.4gamericas.org/documents/4G%20Americas%20Mobile%20Broadband%20Explosion%20August%2020121.pdf
• http://www.4gamericas.org/documents/4G%20Americas%20Mobile%20Broadband%20Explosion%20August%2020121.pdf
• http://www.4gamericas.org/documents/4G%20Americas_3GPP_Rel-10_Beyond_January%202012%20Update.pdf
• http://www.4gamericas.org/documents/4G%20Americas%20Deck%20October%202011.pdf
• http://www.ece.gatech.edu/research/labs/bwn/surveys/ltea.pdf
• http://www.umts-forum.org/component/option,com_docman/task,cat_view/gid,485/Itemid,213/
QUESTIONS, DISCUSSIONS, COMMENTS ARE WELCOME!