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MUSE demonstrator on Multimedia Rich Broadband Access

MUSE demonstrator on Multimedia Rich Broadband Access. Activity leader: Edith.Gilon@alcatel-lucent.be Presenter: Steven.Van_den_berghe@alcatel-lucent.be. What is the objective of the research in MUSE ?. Multi service access network that provides secure connectivity

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MUSE demonstrator on Multimedia Rich Broadband Access

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  1. MUSE demonstrator on Multimedia Rich Broadband Access Activity leader: Edith.Gilon@alcatel-lucent.be Presenter: Steven.Van_den_berghe@alcatel-lucent.be

  2. What is the objective of the research in MUSE ? Multi service access network • that provides secure connectivity • between end-user terminals and edge nodes • in an open, multi-provider environment • at a low cost for every European citizen. Network Service Provider Network Access Provider Access Node Customer Premises First Mile MobileService Provider Aggregation network Edge Node Internet Service Provider Residential Gateway Application Service Provider

  3. Consensus Standards contributions Exchange of info in same area How is MUSE organised ? SP A Technical Steering and Consensus SP B MMBB SP C FMC SP D Distributed nodes SP E Node consolid. TF1 Access architecture & platforms WP B1 WP C1 WP D1 WP E1 TF2 First mile solutions WP B2 WP C2 (DSL) WP D2 WP E2 (Optical) WP A.3 Techno-Economics WP A.4 GSB Standardisation TF3 ResidentialGateways WP B3 WP C3 WP D3 WP E3 TF4 Lab trials WP B4 WP C4 WP D4 WP E4 Proto and trial of E2E deployment scenarios

  4. BB Access Lab trials SPE (XL-PON) at BT Ipswich SPC (FMC) at ACREO Kista SPC (FMC) at TNO Delft SPB (Service Plane, MM) at DT Berlin Via IST MUPBED SPD (Distr. content & control ) at PTI Aveiro SPB (Distr. SBC) at TID Huesca

  5. SPB Multi Media Broadband • Embed MM service enablers in access platform and CPE • Means to interact with services and provided added value as operator to end-user ALC ALC, IME, NTU ServiceEnablers Service EnablersGeneric Scheduler Multi-Service Edge Node AccessNode ALC PSTN Distributed Video Svr ALC, IBBT, NTUA Residential Gateway Internet THO THO, NTUA, INR NMS NRC TV-over-IP Head-End DT, TID THO End-to-End Testing and Evaluation

  6. 1 IMX P2P MGW 2 4 3 MSER Demo setup MUSE-II SPB lab trial DHCP STB 1 D-SBC Service NSP 1 Client NSP1 RGW Click router SIP - Video QoE Monitoring server SIP phone DHCP NSP 2 Edge server + TFTP server INRIA prototypes Aggregation switch VOD - Service Plane Server Client NSP1/2 Click router Edge Router Click router Gateway RGW SIP phone Access Node Maestream server STB 2 Client NSP1+ VLC Monitoring node Management station: VDSL2 RGW - AN management INRIA Management station - SP-management STB 3 + PVR recording - Switch management - Edge Router management

  7. Prototypes & main use cases • 1. Access multiplexer + service plane • Distributed SBC • Video QoE monitoring: TCP & RTP/RTCP • 2. TVoIP gateway (part of the video head-end) • SD/HD MPEG-2/4 video over ADSL2+/VDSL2 • MPEG-2 transrating • 3. (Multi Service Edge Router) MS-ER session mobility • 4. Residential (home) gateway • Access gateway • Secure service gateway in multi-provider • Management proxies: TR-69/NetConf

  8. Service C CP-Extension Service A Service B SLA DP-Extension Access Multiplexer Communication Networking Model Packet Handling Model Service Support Functions Service Plane Control Plane (SW) Data Plane (HW) Service Plane Concepts Service Blade

  9. Access Multiplexer + Service Plane • Use case • “Remote” start, stop, upgrade of services • With upgrade of D-SBC service as example. TFTP-server Service Plane Aggregation Switch Management PC

  10. AM + SP: D-SBC (Distributed Session Border Controller ) • Use case: distributed functionality DHCP RTP-flow NSP1 SIP signaling Residential SIP phone Gateway Service Plane SIP - DHCP Server 7750SR NSP2 Edge server D-SBC If two phones in same ISP, then traffic loop backed in service plane.

  11. TCP AM + SP: TCP monitoring Intentional Impairment • TCP • Packet loss • Only monitoring for the moment. • No translation yet in MOS criteria for QoE • No action undertaken yet based on the monitoring result. Click router Residential Gateway User Click router Service Plane 7750SR VOD - (TCP algorithm) ANTMA Server

  12. AM + SP: RTP/RTCP monitoring • Packet loss, RTT, jitter. • Extensible flow selection algorithm Intentional Impairment Residential Click router Gateway RTP User 1 Service Plane (RTP algorithm) Click router Edge router Video streaming Server User 2 Maestreamserver Gateway Algorithm With emulated receiver reports With {emulated, TVoIP gateway} sender reports MPEG-2/4 SD/HDTS/ASI TV over IP regional/local Headend

  13. Multi format MPEG2/MPEG4 SD/HD De/re-mux Streaming ASI in 2 LIVE TV Network Adaptor Transrate FEC FEC TVoIP setup example: Berlin Analog live TV Maestreamserver MPEG2 SD 2Mbps MPEG4 SD 4Mbps Live MPEG2 SD SPTS n Mbps Video Gateway MPEG4 HD 12Mbps ASI out ASI in 1 ASI OUT 1 MPTS ASI in 3 Local MPEG encoder MPEG4 HD 12Mbps ASI OUT2 SPTS GigE1 21.1.1.1/24 GigE2 22.1.1.1/24 Stream1 mcast1MPEG2 SD RTCP SR User Stream6 mcast6 MPEG2 SD RTCP SR Stream4 mcast4 MPEG4 HD RTCP SR THOMSON STB1MPEG-2/4 SD/HD without FEC Stream3 mcast3 MPEG4 SD RTCP SR Stream5 mcast5 MPEG4 HD RTCP SR ResidentialGateway Channel 1: 239.10.10.1@5004Channel 2 : 239.10.10.2@5004Channel 3 : 239.10.10.3@5004Channel 4 : 239.10.10.4@5004Channel 5 : 239.10.10.5@5004 Click router Stream2 mcast2 MPEG4 HD RTCP SR User Channel 1: 239.10.10.1@5004Channel 2 : 239.10.10.3@5004Channel 3 : 239.10.10.6@5004 THOMSON STB2 MPEG-2/4 SD with FEC AccessMultiplexer/ Monitoring Plane Edge router

  14. TVoIP Gateway features tested: • Support of MPEG-2 and 4 • Support of SD and HD • Transrate MPEG2 stream (with/without FEC) • Multi-source input Formats/ live-stored • RTCP sender report: NTP timestamp, RTP timestamp, sender's packet count, sender's octet count , SSRC and sender’s IP @. Maestreamserver MPEG2 SD 2Mbps Video Gateway MPEG4 SD 4Mbps MPEG4 HD 12Mbps ASI in 1 ASI OUT 1 MPTS MPEG4 HD 12Mbps GigE1 GigE2 ASI in 2 ASI OUT2 SPTS Stream2 mcast2 MPEG4 HD RTCP SR Stream1 mcast1MPEG2 SD RTCP SR Stream4 mcast4 MPEG4 HD RTCP SR Stream5 mcast5 MPEG4 HD RTCP SR Stream3 mcast3 MPEG4 SD RTCP SR User ResidentialGateway AccessMultiplexer/Monitoring Plane THOMSON STBMPEG-2/4 SD/HD without FEC Edge router

  15. GSM Call setup to Alice@unique.de MS-ER session mobility Planned in BBE, Dec. ‘07 MS-ER GSM network Bob MS-ER GW IMX Alice@unique.de SIP ClientTerminals Pa2Pa MGW MS-ER seamless personal/session mobility MS-ER domain facultative web user interfaceto ease the handling

  16. Home network Residential gateway = {access gateway, service gateway} • Access gateway • Supports all above use cases • + B2B UA for SIP calls within home network • 3 12Mbit HD-TV streams • HSI: 40Mbit downstream • Service gateway • Secured multi-provider management • Management proxy • NetConf / TR-69 gateway

  17. Secure OSGi service gateway • Allow multi-provider access  co-deployment of bundles

  18. NetConf / TR-69 Gateway • The netconf gateway can interact with: • One or more CPE via TR-069. • One or more Netconf ACS via Netconf.

  19. IMX P2P MGW MSER Porting to Telefonica & T-Systems use cases DT DHCP STB 1 TID D-SBC Service TID NSP 1 Client NSP1 DT RGW Click router SIP - Video QoE Monitoring server DT SIP phone TID DHCP DT NSP 2 Edge server INRIA prototypes DT TID Aggregation switch DT VOD - Service Plane Service Plane Server Client NSP1/2 Click router TID DT Edge Router Click router Gateway RGW SIP phone Access Node Maestream server DT STB 2 TID DT Client NSP1+ VLC Monitoring node Management station: VDSL2 RGW TID - AN management INRIA Management station - SP-management STB 3 + PVR recording TID: Telefonica - Switch management - Edge Router management DT: T-Systems

  20. IST MUPBED Thanks, any questions ? Thanks to all contributors !

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