1. Transmitting digital video over IPv6 multicast An experience on JGN II ＪＧＮ II Chugoku Research Center IPv6 Interoperability and Evaluation Laboratory JGN II Chugoku RC / WIDE / Kurashiki Univ. of Science & the Arts Takashi Miyake ( มิยาเขะ ) miyake@jgn2.jp

2. Why did we select these technologies? (DVoverIP & IPv6 multicast) Revision of the Broadcasting Law in Japan  Government permit to use the Internet for TV Broadcasting Reachability problem at country side IPv6 multicast  A lot of TV subscribers → IPv6(a lot of address space)  Contents distribution at the same time → multicast Digital Video over IP  We can customize this software easily

3. IPv6 Multicast One of the solution for broadcasting  Sender can initiate only one stream to reach multiple receivers  Packets will be duplicated by Routers & Switches  Reduction of sender costs Operation CPU load Network bandwidth Two type of implementations  Any Source Multicast (ASM)  Source Specific Multicast (SSM)

4. Source Specific Multicast (SSM) Specify the source IP addr 1. Receiver must know the sender’s IP address 2. Receiver will send join request to the sender directly 3. Sender will know the receiver’s IP address 4. Packets will start transferred from the sender to the receiver

5. Any Source Multicast (ASM) Rendezvous point 1. The stream reach RP 2. The join request reach RP 3. They will meet at RP 4. Router can make the multicast routing table 5. Packets will start transferred from the sender to receivers

6. Digital Video Over IP Encapsulate the DV data into IP packet  Encapsulated by software DV data IP

7. DV over IP softwares DVcommXP  Commercial product  Made by Fatware Inc.  Support only WindowsXP-JP  Easy to use  IPv4,6 unicast multicast capable  http://www.fatware.jp/ http://www.fatware.jp/ (Japanese only) DVTS  Open source software  Made by WIDE project  Supported Platform Windows2000/XP BSD Linux MacOSX  IPv4,6 unicast multicast capable  http://www.sfc.wide.ad.jp/DVTS/

8. JGNII & JGNv6 Network JGN II  Nation Wide Layer 2 network  Data link media Using 10Gigabit Ethernet (LAN-PHY/WAN-PHY), Gigabit Ethernet and Fast Ethernet JGNv6  Layer 3 network on JGN II Routers : ALAXALA, Hitachi, NEC, Allied-Telesyn Juniper, Cisco, )  64 access points 8 core routing points and 56 leaf points Using OSPFv3 (IPv6 Unicast) and PIM-SM IPv6 (IPv6 Multicast) as the routing protocols  Global IPv6 connectivity Using 2001:e38::/32 address block  IPv6 Multicast ready PIM-SM IPv6(L3) and MLD,MLD snooping(L2) at all devices Three Rendezvous Points

9. JGN II & JGNv6 core topology on the map

10. JGNv6 Network (diagram)

11. 1 ’ st trial Snow Festival via JGNv6 2004 Experiment objective  IPv6 Multicast interoperability test  The practical use of IPv6 Multicast for Live TV broadcasting (DV over IP) Overview  Live TV broadcasting via JGNv6 network Sapporo Snow Festival 2004 （ Feb.5-Feb.11 ） Live TV program Feed: Single multicast source / Return: multiple unicast  Reporter and newscaster voice are transmitted via VoIP(IPv4).

12. TV companies of 2004

13. Status of TV contents １ RKB (RKB)  5 th Feb （ Thu ） 17:25 ～ 「 Kyokan TV 」 ２ Mainichi Broadcasting System (MBS)  5 th Feb （ Thu ） 18:48 ～「 MBS VOICE 」 in weather news  6 th Feb （ Fri ） 18:48 ～「 MBS VOICE 」 in weather news ３ RSK sanyo broadcasting (RSK)  5 th Feb （ Thu ） 16:50 ～ 「 Evening wide 」 at Chapter 1  5 th Feb （ Thu ） 18:45 ～ 「 Evening wide 」 at Chapter 2 ４ Hokkaido Broadcast Company (HBC)  5 th Feb （ Thu ） 18:35 ～ 「 Teleport 2000 」 ５ Ryukyu Broadcast Company (RBC)  4 th Feb （ Wed ） 18:40 ～ 「 RBC area report 」  5 th Feb （ Thu ） 18:22 ～ 「 RBC area report 」

14. Screen snapshot at Live on TV 2004 © 2004 RSK,MBS,RBC,HBC,RKB

15. Multicast problems(2004) Discarded MLD packet (interoperability problem)  MLD (Multicast Listener Discovery) was find interface which receiver connected PadN and Router Alert option was invalid position in “ Hop-by- Hop ” IPv6 extension header The multicast was not forwarded even if there is a listener in the switch port. We changed kernel of client OS We send bug report to each venders Can ’ t flood Multicast Listener Query on switches  MLD entry was timeout then can ’ t forward the multicast  The vender solved problem on firmware(Firmware update) Problems are solved now

16. 2 ’ nd Snow Festival via JGNv6 2005 Experiment objective  IPv6 Multicast interoperability test  Multi-place, bi-directional, IPv6 Multicast for Live TV broadcasting Overview  Two Live TV programs at same time (Parallel Live) Sapporo Snow Festival 2005 （ Feb.7-Feb.13 ） Live TV program Professional Baseball Okinawa Spring CAMP contents were also at same time.  23 multicast sources (DV:20/HDV:3).  Reporter, newscaster voice, and all broadcasting related income communication are transmitted via VoIP on same dual stack network (DV:IPv6 Multicast/VoIP:IPv4 Unicast).

17. TV companies & research partners of 2005

18. 3 ’ rd Snow Festival via JGNv6 2006 Experiment objective  IPv6 Multicast interoperability test  Multi-place, bi-directional, reliability, IPv6 Multicast for Live TV programs  Deployment for HDV live broadcasting system  International collaborations (ThaiSARN, SingAREN, KoREN) Overview  Live TV programs via JGNIIv6 network at same time (HD,SD) Sapporo Snow Festival 2006 （ Feb.6-Feb.12 ） Live TV program Professional Baseball Okinawa Spring CAMP contents were also at same time.  30 multicast source (DV:26, HDV:4)  VRRP for IPv6 multicast

19. Joint research partners (Thailand, Singapore, Korea) JGN II international link  From Tokyo To Bangkok Thai Tower in Thailand Remote controllable camera & DV over IP equipment in GITS office  From Tokyo To Global Switch in Singapore Remote controllable camera & DV over IP equipment in NUS& NTU Korea is through the QGPOP to connect KOREN NTU (Nanyang Technological University)NUS (National University of Singapore) GITS in Thai Tower

20. Sapporo Snow Festival 2006 Topology

21. Odori-park@Sapporo (Venue)

22. Redundancy of Routers JGNv6 Temporally Network Center (Venue) (Virtual Router Redundant Protocol) Master Slave

23. Redundancy of Multicast source stream Stream auto source select Gateway  This is my research topic! Software implementation  There are no redundancy functions of senders now  Gateway will detect trouble under 200 packet  If it found trouble in main stream then it can change to sub- stream Network-Switch Sender-Main Sender subGateway JGN2IPv6 network Gateway PC

24. Live program snapshot

25. Screen snapshot at Live on TV 2006 © 2004 RSK,CBC,HBC,MBS,RBC,RCC

26. Conclusion From interoperability test  Implement IPv6 multicast protocols with multiple venders  Implement IPv6 multicast technologies on testbed network  Build IPv6 multicast operation & management technologies From Snow Festival demonstration  Current TV broadcasting technology can be replaced by IPv6 multicast technology

27. Video