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https://tools.ietf.org/html/rfc5053
RFC 5053 Raptor FEC Scheme October 2007 - A symbol alignment parameter, Al - The symbol size, T, in bytes, which MUST be a multiple of Al - The number of source blocks, Z - The number of sub-blocks in each source block, N The Raptor encoder for object delivery additionally requires: - the object to be encoded, F bytes The Raptor encoder supplies the CDP with the following information for each ...Author: Michael Luby, Amin Shokrollahi, Mark Watson, Thomas Stockhammer
https://datatracker.ietf.org/doc/rfc5053/
Raptor Forward Error Correction Scheme for Object Delivery (RFC 5053, October 2007)
https://tools.ietf.org/html/rfc6330
RFC 6330 RaptorQ FEC Scheme August 2011 time, for example, at least 4 octets at a time on a 32-bit processor. Thus, the encoding and decoding can be performed faster if the sub- symbol sizes are a multiple of this number of octets. The recommended setting for the input parameter Al is 4.Author: Michael Luby, Amin Shokrollahi, Mark Watson, Thomas Stockhammer
http://citeseerx.ist.psu.edu/viewdoc/summary?doi=10.1.1.374.4050
Raptor is a fountain code, i.e., as many encoding symbols as needed can be generated by the encoder on-the-fly from the source symbols of a source block of data. The decoder is able to recover the source block from any set of encoding symbols only slightly more in number than the number of source symbols.
https://datatracker.ietf.org/doc/rfc6330/
RaptorQ codes are a new family of codes that provide superior flexibility, support for larger source block sizes, and better coding efficiency than Raptor codes in RFC 5053. RaptorQ is also a fountain code, i.e., as many encoding symbols as needed can be generated on the fly by the encoder from the source symbols of a source block of data.
https://global.ihs.com/doc_detail.cfm?item_s_key=00590172
Raptor is a fountain code, i.e., as many encoding symbols as needed can be generated by the encoder on-the-fly from the source symbols of a source block of data. The decoder is able to recover the source block from any set of encoding symbols only slightly more in number than the number of source symbols.
http://www.ietf.org/mail-archive/web/ietf-announce/current/msg04204.html
Oct 23, 2007 · Raptor is a fountain code, i.e., as many encoding symbols as needed can be generated by the encoder on-the-fly from the source symbols of a source block of data. The decoder is able to recover the source block from any set of encoding symbols only slightly more in …
https://en.wikipedia.org/wiki/Raptor_codes
An example of a systematic Raptor code is the code defined by the 3rd Generation Partnership Project for use in mobile cellular wireless broadcast and multicast and also used by DVB-H standards for IP datacast to handheld devices (see external links). The Raptor …
https://global.ihs.com/doc_detail.cfm?item_s_key=00575947
RaptorQ codes are a new family of codes that provide superior flexibility, support for larger source block sizes, and better coding efficiency than Raptor codes in RFC 5053. RaptorQ is also a fountain code, i.e., as many encoding symbols as needed can be generated on the fly by the encoder from the source symbols of a source block of data.
https://www.researchgate.net/publication/241686106_Raptor_Forward_Error_Correction_FEC_Schemes_for_FECFRAME
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