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Satyaspeak Everything Over IP- All you want to know about NGN

Satyaspeak Everything Over IP- All you want to know about NGN. Emerging NGN Technologies - Excellence through Work-Life Blend Satya N. Gupta Executive Mentor, SAAM CorpAdvisors Hon. Secretary General, NGN Forum Jt. Secy. General, ITU-APT Foundation. Training Methodology. Objective:

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Satyaspeak Everything Over IP- All you want to know about NGN

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  1. SatyaspeakEverything Over IP-All you want to know about NGN Emerging NGN Technologies - Excellence through Work-Life Blend Satya N. Gupta Executive Mentor, SAAM CorpAdvisors Hon. Secretary General, NGN Forum Jt. Secy. General, ITU-APT Foundation

  2. Training Methodology • Objective: • “To learn all you wanted to know about Next Generation Technologies” • Philosphy: • If I Listen- I Forget • If I See- I Remember • If I Interact- I Understand • “ Learning through Knowledge-Exchange” • Moral: • For next few hours, you should Eat, Drink ,Think and Talk NGN- Sleep not an option- There is a Quiz to be faced and Prize to be won.

  3. AGENDA • Emerging Technological Developments • Evolution of Last mile Technologies • Next Generation Access - FTTH • Next Generation Broadband Converged Network (NGBCN)- Simplifying the Network • Innovative NGN Applications- Everything Over IP ( EOIP) • 21st Century City- Digital Ecosystem • Work-Life Blend through NGN Technologies • Conclusion

  4. Emerging developments in ICT Technologies- Leading to Flux in Telecom • Increased speed and density of Integrated Circuits (Moore's Law-CPU processing power doubles every 18 months). • Enhanced Transmission capacities on Optic Fiber Networks and Networking Flexibility (Gilders Law-OFC carrying capacity doubles every 6 months). • Cloud (Virtualisation) and Open Platform-based Communication Software (APIs) and Knowledge-discovery through Big-Data. • Capacity Growth and new Application Services on Wireless (Coopers Law-wireless capacity doubles every 30 months). • Networking Effect ( Metcalf’s Law)- Value of network, Square of subscribers. • Carriage of real time ,QOS-requiring multimedia traffic on IP-based networks (VOIP, IPTV, VOD, UC, IPV6)

  5. Evolution of Alternate Last Mile Technologies • Use of Coaxial Cable for Telecom Services (Cable TV Network for Broadband and telephony local loop). • Use of XDSL technologies on traditional Copper Loops. • Wireless Access for Fixed and Mobile communication. • VSAT-based Access in remote areas. • Power line based Access (BPL). • Free Space Optics (FSO). • FTTX ( FTTC,FTTP,FTTB,FTTH,FITH,GPON)

  6. Technology Alternatives for Wireline Broadband 1. Evolution of Wireline Technologies i) Use of Digital Subscriber Loop (DSL) technology on traditional Copper Loops (DIY, Franchising, Shared Unbundling, Bit stream)/ Active Loop Access) • Asymmetric DSL (ADSL) – 1 Mbps upstream/ 8 Mbps downstream, 3 Km • ADSL (G.Lite) – Splitter free, 512 Kbps upstream/ 1.5 Mbps downstream, 5.4 km • Symmetrical DSL – 1.5 Mbps, 3 Km • Single pair High-speed DSL (SHDSL) – 2.3 Mbps symmetric, 3 Km • ADSL 2, ADSL 2 plus – 8/24 Mbps, 1.5 Km • Very high Data Rate DSL (VDSL) – 52 Mbps, 1.5 Km • Vectoring with VDSL (Vec.VDSL2+)- 100Mbps, 1.5 Km. • Bonding+Vectoring+MIMO+VDSL- 800Mbps, 1.5Km

  7. Broadband over copper loop (DSL) Local PSTN Exchange Customer Premises TV [video] Twisted Pair Copper Loop Phone [voice] DSL Modem LEX PC [data] DSLAM CDN Internet Content Delivery Network

  8. Cable TV Networks for Broadband Access • Broadband over cable TV accounts for 75% of total connections in US, and more than 50% in Canada • 110 million cable homes in India ( against 30M Cu loops), but infrastructure can not support bi-directional communication and requires upgrade • Regulatory environment, via an ISP license, allows this with some MSO’s and operators already doing so. Also Digitalisation is helping the same. • For advances to occur, better organization of the industry needed to be implemented • Cable operators will need to adopt innovative business models to compete in converged environment through broadband services • Possible to provide enhanced entertainment services such as interactive digital TV, pay-per-view, video on demand and time-shifted TV • Benefits operators with significantly higher ARPU and better customer retention • To start with Cable TV network which is uni-directional can be used for downloading, the uplink to be conventional narrow band like dialup/ ISDN/ RADIO • Operators need training to create awareness about utility of their networks and understanding of the investments required, returns possible, and technical aspects

  9. iii) Fiber Optic Cable Technologies • Fiber To The Curb (FTTC) – by existing operators • Fiber To The Home (FTTH) – Fiber in last mile to deliver converged • services • Hybrid Fiber Coaxial (HFC) – by Cable TV operators • GPON (Gigabit - Passive Optical Network) – triple play over FTTH • (20Km of distance and 100Mbps of download speed) • iv) Broadband over Power Line (BPL) Technologies • Use of existing domestic power connections for sending data • Throughput in the range of 1 MHz (4 – 6 Mbps) • Ideal for rural areas where telecom / cable TV infrastructure may not be • there • v) Metro Ethernet Networks (MEF) • –Use of Ethernet beyond LAN through Fiber • –Use of high-speed access using hybrid fiber/ copper based Ethernet • –Power over Ethernet (POE) • --Ethernet over Copper (EOC)

  10. Mobile TechnologiesTrends • GSM, GPRS, CDMA, EVDO, 802.11 ( WLAN, Wi-Fi) 802.16d/e (Fixed/Nomadic Wimax), PTT,Bluetooth,UWB, 3G- Already Available. • 802.16m (Fully Mobile WiMAX), OFDMA, HSPA, MIMO, LTE (4G), All-IP cellular networks- Emerging out. • Human Area Network (HAN) associated with body/ clothing-Becoming a possibility. • Fixed Mobile Convergence(FMC) leading to inter-operability of handsets for any type of access – Quad Mode Multi Band handsets. (WiFi,Wimax, GSM, CDMA)-UMA (Unlicensed Mobile Access). • Software Defined Radios (SDR) – Multi-Functional, Multiservice, Multiprotocol, Multiband, Multimode (Universal) Radios. • Cognitive Radio (CR)/Intelligent Radio-Use of White Spaces, Dynamic Spectrum Sharing

  11. Broadband Wireless Access (BWA) Technologies

  12. Technology Comparison – BWA (IMT and Advanced)

  13. Enabling Broadband Access –Technology Neutrality (making use of existing infrastructure & wireless) VSAT HOME SHOPPING SERVER (E-COMM) INTERNET KIOSK/ HOME Ethernet VIDEO SERVER FTTC >24 Mbps 512 Kbps- 2 Mbps 256 Kbps- 24 Mbps XDSL FTTH/GPON Satellite Cordect E-COMM SERVER INTERNET (CONNECTIONLESS) PSTN (Connection oriented) 70 Kbps SWITCHED TELEPHONE/DATA SERVICE (FR/ATM) ROUTED (TCP/IP) WLL CDMA 144 Kbps – 2 Mbps M-COMM SERVER Cellular Mobile Cable TV Network (Shared) Hotspots Network (WISP) 3/4 G GPRS/ EDGE/3G,LTE BUSINESS VOICE, DATA & VIDEO ON SAME PLATFORM 384 Kbps- 100 Mbps 128 Kbps- 8 Mbps 3G ENABLED/ GPRS/ EDGE CM Broadband through Cable TV HANDSET Wireless Broadband Access (Wi-Fi, Wi-Max) 64-384 Kbps Broadband through DTH

  14. Spectrum Utilization Trends • Radio Spectrum availability is key to the success of exploitation of new technology trends. • Being a limited resource, new technological evolution and management techniques required for optimum utilization. • Usage of Multi-Layer, Hierarchical structures based on Micro , Pico and Femto cells, Cell splitting, Synchronous Frequency Hopping, Narrowbanding ,etc. • Use of Adaptive, Intelligent Antenna Array , OFDM and Scattering. • Enhancing the information carrying capacity of radio spectrum by Multi-level Modulation, MIMO, Compression, AMR Coding, DTX, DSI ,OFDM, Spectrum sharing,Dynamic Spectrum Exchange, etc. to move towards Shannon’s limit , C= B Log2(1+S/N).

  15. Trend Towards Convergence – NGN • Evolving Networks leading to Convergence of Voice, Data & Video services on a common infrastructure resulting into cost saving and performance improvements as well as leading to new avenues for revenue generation. • Convergence of Telecom, Broadcast and Internet leading to Multimedia services. • Evolving NGNs and 21CNs capable of guaranteed QOS and high level of Security, Reliability and Flexibility. • Emergence of single “Information Plug” (Quad- Play). • Customers aspiration – Better, Faster, Cheaper, One Stop Shop, Single Bill- “ Sashta, Sunder aur Tikau”.

  16. Application Layer Application Services Internet Control Bearer Service Control Layer Softswitch Control IP Multimedia Sub-System (IMS) Transport (Media) Layer (core and access) Metro Optical Media Gateways PSTN X X X X X X X X X X Multiservice Packet Switching RAS Broadband Access DSLAM National Optical ACCESSNETWORK GbE Frame/ ATM CORE NETWORKS CPE Wireless NGN – Digitalise, Packetise, Distribute( Layered)

  17. What is All IP-NGN Ecosystem?(From Layman’s point of view) • Next Generation Services – Converged (quad-play, voice, data, video, mobile) • Next Generation Access – High speed (Broadband) IP based connectivity (ADSL, VDSL, LTE, Cable TV, FTTH, PLC) • Next Generation Transport - Packet Transport Network (PTN) • Next Generation Architecture – Service oriented, Layered (transport, control, application) • Next Generation Mobile – 3G+ • Next Generation Internet – IPv6 • Next Generation Interconnect – Capacity and Quality based • Next Generation Licensing – Unified and Class Licensing • Next Generation Regulation – Converged (Single Regulator for ICE)

  18. Advantages of All-IP NGN • NGN makes use of best of both the worlds (flexibility, efficiency & Innovativeness of IP and QOS, Security, Reliability, Customer-friendly features of proven PSTN • Advantages for Service Providers • Reduced CAPEX due to integrated and efficient IP-based technology (Packetize or Perish) • Reduced OPEX due to transmission cost saving, less power consumption, less space requirement, less O&M costs • Ability to offer increased range of services • More flexibility increasing market penetration by offering personal service, customization and management • Single network layer for management • Avoidance of separate voice, broadcast and data networks • Advantages for Customers • Reduced call charges due to efficient operation and competition • New innovative services at a fast speed • Single connection and bill for voice, data, video, mobile (Quad play) • Control of application service for flexibility

  19. Emerging NGN Applications- EOIP

  20. ADSL ADSL2+ FTTC (+VDSL) FTTP (All Buildings) Downstream Headline 8 Mbit/s 24 Mbit/s 40 Mbit/s 100 Mbit/s Downstream Typical 5 Mbit/s 10 Mbit/s 20 Mbit/s 50 Mbit/s Upstream Headline 0.8 Mbit/s 0.8 Mbit/s 10 Mbit/s 30 Mbit/s Upstream Typical 0.4 Mbit/s 0.4 Mbit/s 5 Mbit/s 15 Mbit/s Cost of Deployment USD 75/Line (Existing Cu Line) USD 100/line (Existing Cu Line) USD250- 300/line ~USD 350/line Technologies for Next Generation Access (NGA)- Fixed

  21. NGA Deployment Scenario- FTTX • FTTN • Fiber-to-the-node • FTTC • Fiber-to-the-cabinet/curb • FTTB/P • Fiber-to-the-building/premises • FITH/FTTH • Fiber-in-the-home Source: Wikipedia

  22. PON (Passive Optic Network) Topologies Source: DSTI/ICCP/CISP(2007)4/FINAL

  23. PON - TDM

  24. Future of Next Generation Access (NGA) – Fiber In the Home (FITH) • Enables Superfast Broadband applications to customers. ( >100MPBS) • Green technology • Future proof • Enables real-time High Definition Multimedia, Convergence, Collaboration, Work-from-Home and Innovations

  25. Next Generation Broadband Converged Network (NGBcN) Converged Services Open Application Interface (API) “Next Generation Network(NGN) which provides seamless converged services from Telecom, Internet & Broadcasting infrastructure at any time, anywhere to anywhere, from any device to any device as per the wish of Customer.” Inter-operatability Broadband IP QOS Wired + Wireless ‘Any Media’ Voice + Data ‘Any Mode’ Telecom + Broadcasting ‘Any Service’

  26. UK- Legacy Network PSTN Copper PSTN K Stream Leased lines DSL PDH access ATM IP Fibre SDH VC-12 SDHaccess SDH VC-4 PDH access PDH ~ 1k sites ~ 15k sites ~ 400k sites End User ~ 2k sites ~ 5.5k sites ~ 100k sites

  27. UK - Legacy Access Today’s Broadband Downstream Headline 8 Mbit/s Downstream Typical 5 Mbit/s Upstream Headline 0.8 Mbit/s Upstream Typical 0.4 Mbit/s Local Exchange (5.6k) Core network ~ 4m Distribution Points (Lines split almost 50:50 between overhead & underground) Backhaul Current LLU demarcation point E-side Cables Overhead Distribution Telephone Pole ~8m Street Cabinet ~90k ADSL1 D-side Cables Customer Home ~26m Underground Distribution

  28. Next Generation Simplified Network -BT’S 21CN Multi-Service Access Nodes Converged Core Class 5 Call Server Copper WWW IP-MPLS-WDM Fibre & Copper ISP Content Wireless -5.5k sites -100 sites End User

  29. Fixed Mobile Convergence (FMC) – A compelling NGN application FMC is convergence of access for telephony wherein as per the convenience of the users an mobile call can be delivered on fixed phone or can be terminated through Fixed/ Wi.fi broadband network on mobile phone. Main motivation for this is :- 1. Spectrum shortage leading to congestion and reduced QoS. (It is believed that 70% of the time a mobile call recipient is on a fixed location/Hot Spot) 2. Mobile subscribers saturation, Fixed lines decline (Battle for in-building minutes) 3. Broadband becoming ubiquitous and cost effective • The “Mobile Handset” is becoming a multi-purpose, multi-band, multi-mode palm-held computer • NGN Technologies enabling FMC (IMS, UMA ,Femtocells )

  30. FMC Concept

  31. FMC- Convergence of PSTN, PLMN, Internet

  32. FMC Challenges-India • Number plans and number portability • Fixed and mobile numbers come from separate blocks and they have prefixes that contain information for interconnection charging • Currently mobile number portability (MNP) available but not fixed/mobile number portability • Directory services • Fixed operators provide directory service to their customers. This catalogue contains information on all fixed line customers • Currently mobile operators do not offer this kind of service and mobile numbers are considered as personal subscriber data • Handset availability • Widespread unavailability of Wi-Fi enabled multi mode handset (always a problem in the early stages of any telecommunications technology) • Role of regulators • Permitting interconnection of PSTN and Internet (IP) networks. • Determining IP termination charges inline with MTC (mobile termination charges) as a part of IUC. • Unify the Numbering system for fixed and mobile , move toward E.Num • Regulators should only establish the facilitating interconnection rules so that the market forces can guide direction, extent and pace of FMC.

  33. NGN- Regulatory and Technology Challenges STANDARDS INTEROPERABILITY ACCESS Competition Security Consumer protection Emergency Quality of Service Rights of redress Directories Privacy Information Choice Special needs Universal service Convergence Bundling Bottlenecks Interconnection & access Carrier selection Number portability Migration Investment Critical Infrastructure Viruses & firewalls Network attack Disaster recovery Lawful Interception Cyber crime Misuse IDENTITY, NUMBERING, ADDRESSING Source: ASTAP05_WS.IP&NGN-09

  34. UN Vision for Broadband, the New PSTN( Build and they will Come) Build on Broadband and the rest will follow  Broadband needs to be considered as basic national infrastructure, as it will fundamentally reshape the world in the 21st century and change the way services are delivered – from e-health to e-education to e-commerce to e-government.

  35. What Broadband means for City Homes TODAY… TOMORROW… Multi viewing High Definition TV.., 3D Mobile TV. Fast internet... Advanced High Definition gaming experience… Instant messaging… VoIP, HD voice… High Definition video conferencing, Cloud computing, Telepresence, … IPTV… iPlayer… A world of new possibilities from super-fast broadband …But growth of simultaneous usage raises potential peak bandwidth issues for the future …Assured high quality experience with simultaneous usage of all new high speed applications and services 8

  36. What Broadband means for Offices • Bringing big business fibre based services to smaller businesses: speeds > 1 Gigabit • Improved choice in access speeds providing City businesses with a competitive edge • Two way speed allowing collaboration across locations between customers and suppliers • Improved flexibility in Remote and Home working, Cloud computing, Virtualisation 9

  37. New Delhi- 21st Century City • 70s- Delhi , a City of Villages (38) • 80s- Became City of Cities- Urbanisation, NCR, Asiad- 82, Color TV Broadcast, FM, Digitalisation of telecom network, Computarisation of Railways reservation, Corporatisation of DTS (MTNL), Establishment of C-DOT. • 90s- CHOGM, Optical Fiber Trunks, Internet, Mobile, ATMs. • 2000s- CNG, Broadband, IPTV, CAS, Flyovers, Metro, Teledensity> 100, Mushrooming of Hot-spots, 3G, Privatisation of Power Distribution. • 2010- Leapfroging in Infrastructure, CWG-2010, Modern Metro, Green Public Transport, NGN, Tetra, Green Energy, FTTH, Warm Zone, IPV6, Femtocells. • >2010-NGN Core, 20% home Broadbanded, Cable TV digitalised, teledensity>200%, Smart Grid, Per capita Income 3,000 USD (3 times of national average)

  38. Work-Life Blend through NGN Technologies • Work-Life Blend (Not Work-Life Balance)- Making Work Pleasant like Life, Life’s Work , Flexible Working, Work from Home, Homing from Work (BYOD, Bring Your Own Device), Adaptive Time Management, Multi-Tasking, Task Off-loading, Selective/Creative Outsourcing ( Managed Services, If you cant do anything well, 0ff-load it to someone who can do better), Optimised Work-Life-Play • Internet Style-Efficient, Flexible, Innovative, Open, Crowd-Source • Commute Less Communicate More, Trade- off Transport with Telecom, Remote-Access, Virtualisation • Use Web2.0, Tele Presence, Web Confrencing, Net- meeting, Audio Confrencing, IM, Collaboration, Virtual-Conversation,Blogging. • Form focus discussion groups on Professional Networking sites (LinkedIn), E-learning,E-publishing, Digital-profile- “Network is Your Net-worth” • Exploit the capabilities of Smartphones / Phablets / Tablets/Home Gateways • Avail e-citizen services and m-banking from Home • Take your office with you on the move – I.Cloud,Office365, Mi-fi

  39. THANK YOU“Happy WLBlending” Satya N Gupta sg.ngnguru@gmail.com

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