Presentation is loading. Please wait.

Presentation is loading. Please wait.

1 RaptorG Forward Error Correction Scheme for Object Delivery draft-luby-rmt-bb-fec-raptorg-object-00 (update to this to be officially submitted soon)

Published byTheodore Henderson Modified over 8 years ago

Similar presentations

Presentation on theme: "1 RaptorG Forward Error Correction Scheme for Object Delivery draft-luby-rmt-bb-fec-raptorg-object-00 (update to this to be officially submitted soon)"— Presentation transcript:

1 1 RaptorG Forward Error Correction Scheme for Object Delivery draft-luby-rmt-bb-fec-raptorg-object-00 (update to this to be officially submitted soon) Michael Luby IETF#76 – Hiroshima 8-13 November 2009

2 2 RaptorG code properties

3 3  Systematic code  Supports 1 to 56,404 source symbols per source block Memory available at decoder generally limits # source symbols –Even with sub-blocking  Supports 0 to 16+ million repair symbols Application/network generally determines # repair symbols Fountain code property –Protection from 0 up to 300+ times the source block size –Repair symbols independently generated –No need to set code rate in advance  Supports symbol size from 1 to 65,536 bytes Packet size generally limits source symbol size One symbol per packet recommended Can choose symbol size to adjust to desired packet size  Limits are not fundamental to the code design Practical specification choices based on foreseeable use cases

4 4 RaptorG code properties  If the number of source symbols is K then… Receive K symbols  Pr[decode fails] ≤ 10 -2 Receive K+1 symbols  Pr[decode fails] ≤ 10 -4 Receive K+2 symbols  Pr[decode fails] ≤ 10 -6  True for the entire range of K values From K = 1 to K = 56,404  True for very low to very high loss From loss = 0% to loss = 97%  Strongly systematic Recovery properties are independent of mix of received source and repair symbols

5 5 RaptorG code properties

6 6  Linear time encoding and decoding Comparable to Raptor specified in RFC 5053

7 7 RaptorG Forward Error Correction Scheme for Object Delivery

8 8  Same organization and parameters as RFC 5053 Same FEC Payload ID parameters –4 bytes total – same as for RFC 5053 –SBN is 8 bits –ESI is 24 bits Same FEC OTI parameters –F, Al, T, Z, N  Parameters have same meaning as in RFC 5053

9 9 RaptorG Forward Error Correction Scheme for Object Delivery  Similar suggested derivation of FEC OTI parameters as RFC 5053 Improved and simpler –Recommends one symbol per packet Improved support for sub-blocking provided –Large source blocks decodable using small receiver memory –Derivation of parameters improved compared to RFC 5053 –Allows larger source blocks due to more source symbols Example of sub-blocking –Maximum sub-block size is 1 MB –Minimum sub-symbol size is 32 bytes –Packet size is 1500 bytes –Can use a source block of size up to 43 MB

10 10 Raptor RFC 5053 vs. RaptorG PropertyRaptor RFC 5053RaptorG # source symbols8,19256,404 # encoded symbols65,53616,777,216 Max. sym. size65,536 # source blocks65,536256 Recovery propertiesGoodExceptional # symbols/packetOften multiple1 Sub-block supportGoodImproved

11 11 Next steps  Adopt as a RMT working group draft

Download ppt "1 RaptorG Forward Error Correction Scheme for Object Delivery draft-luby-rmt-bb-fec-raptorg-object-00 (update to this to be officially submitted soon)"

Similar presentations

Low-Complexity Transform and Quantization in H.264/AVC

Low-Complexity Transform and Quantization in H.264/AVC
RTP Payload Format for Reed Solomon FEC of Multiple Flows

RTP Payload Format for Reed Solomon FEC of Multiple Flows
Scalable Video Multicast Using Expanding Window Fountain Codes Dejan Vukobratovic´,Vladimir Stankovic´, Dino Sejdinovic´, Lina Stankovic´,Zixiang Xiong.

Scalable Video Multicast Using Expanding Window Fountain Codes Dejan Vukobratovic´,Vladimir Stankovic´, Dino Sejdinovic´, Lina Stankovic´,Zixiang Xiong.
Cyclic Code.

Cyclic Code.
IETF 76 – November 8-14 – Hiroshima, Japan RMT LCT draft-rmt-pi-alc-revised-10 Mark Watson.

IETF 76 – November 8-14 – Hiroshima, Japan RMT LCT draft-rmt-pi-alc-revised-10 Mark Watson.
Digital Fountain Codes V. S

Digital Fountain Codes V. S
José Vieira Information Theory 2010 Information Theory MAP-Tele José Vieira IEETA Departamento de Electrónica, Telecomunicações e Informática Universidade.

José Vieira Information Theory 2010 Information Theory MAP-Tele José Vieira IEETA Departamento de Electrónica, Telecomunicações e Informática Universidade.
Note: is very restrictive Would like more flexibility in determining the length If we shorten the length of the message.

Note: is very restrictive Would like more flexibility in determining the length If we shorten the length of the message.
Jump to first page A. Patwardhan, CSE 581 1 Digital Fountains Main Ideas : n Distribution of bulk data n Reliable multicast, broadcast n Ideal digital.

Jump to first page A. Patwardhan, CSE Digital Fountains Main Ideas : n Distribution of bulk data n Reliable multicast, broadcast n Ideal digital.
RTP Payload Format for Reed-Solomon FEC draft-galanos-fecframe-rtp-reedsolomon-00 Sarit Galanos, RADVISION IETF 76 – November 2009.

RTP Payload Format for Reed-Solomon FEC draft-galanos-fecframe-rtp-reedsolomon-00 Sarit Galanos, RADVISION IETF 76 – November 2009.
RTP Payload Format for Multiple Flows FEC draft-peck-fecframe-rtp-mf-00 Orly Peck, RADVISION IETF 76 – November 2009.

RTP Payload Format for Multiple Flows FEC draft-peck-fecframe-rtp-mf-00 Orly Peck, RADVISION IETF 76 – November 2009.
D.J.C MacKay IEE Proceedings Communications, Vol. 152, No. 6, December 2005.

D.J.C MacKay IEE Proceedings Communications, Vol. 152, No. 6, December 2005.
Understanding the Internet Low Bit Rate Coder Jan Linden Vice President of Engineering Global IP Sound Presented by Jan Skoglund Sr. Research Scientist.

Understanding the Internet Low Bit Rate Coder Jan Linden Vice President of Engineering Global IP Sound Presented by Jan Skoglund Sr. Research Scientist.
Threshold Phenomena and Fountain Codes

Threshold Phenomena and Fountain Codes
Fountain Codes Amin Shokrollahi EPFL and Digital Fountain, Inc.

Fountain Codes Amin Shokrollahi EPFL and Digital Fountain, Inc.
1 Forward Error Correction Shimrit Tzur-David School of Computer Science and Engineering Hebrew University of Jerusalem.

1 Forward Error Correction Shimrit Tzur-David School of Computer Science and Engineering Hebrew University of Jerusalem.
10th Canadian Workshop on Information Theory June 7, 2007 Rank-Metric Codes for Priority Encoding Transmission with Network Coding Danilo Silva and Frank.

10th Canadian Workshop on Information Theory June 7, 2007 Rank-Metric Codes for Priority Encoding Transmission with Network Coding Danilo Silva and Frank.
Allocation of Layer Bandwidths and FECs for Video Multicast Over Wired and Wireless Networks T.-W. Angus Lee, S.-H. Gary Chan, Qian Zhang, Wen-Wu Zhu,

Allocation of Layer Bandwidths and FECs for Video Multicast Over Wired and Wireless Networks T.-W. Angus Lee, S.-H. Gary Chan, Qian Zhang, Wen-Wu Zhu,
Forward Error Correction. FEC Basic Idea Send redundant data Receiver uses it to detect/correct errors Reduces retransmissions/NAKs Useful when RTT is.

Forward Error Correction. FEC Basic Idea Send redundant data Receiver uses it to detect/correct errors Reduces retransmissions/NAKs Useful when RTT is.
Accessing Multiple Mirror Sites in Parallel: Using Tornado Codes to Speed Up Downloads John Byers, Boston University Michael Luby, Digital Fountain, Inc.

Accessing Multiple Mirror Sites in Parallel: Using Tornado Codes to Speed Up Downloads John Byers, Boston University Michael Luby, Digital Fountain, Inc.

Similar presentations

Ads by Google