Title :
FIR parity check codes
Author :
Heegard, Chris ; King, Andrew J.
Author_Institution :
Alantro Commun., Santa Rosa, CA, USA
fDate :
7/1/2000 12:00:00 AM
Abstract :
This paper describes a method for packet synchronization and error detection for use in a synchronous digital communications system. The method relies upon a class of linear block codes that have parity checks that are expressed in terms of a finite-impulse response (FIR) filter. This system is incorporated in the newly established ITU standard of digital cable television standard, J.83 appendix B, which is based on an MPEG 2 transport packet data stream. This technique is also the basis for cable modem downstream transmission defined in the IEEE 802.14 and MCNS standards. The parity check structure is based on a pseudonoise sequence generated by a (binary) primitive polynomial. This structure allows for a computationally efficient implementation of the parity check FIR filter, in a recursive manner, that is none the less self-synchronizing. The FIR parity check codes that are described are characterized as the dual of a CRC-type, shortened cyclic code. The theory and computational structure of these codes are presented here; the J.83R code is used as an example of the general theory
Keywords :
FIR filters; IEEE standards; algebraic codes; block codes; cable television; code standards; cyclic codes; digital television; dual codes; error detection codes; filtering theory; linear codes; packet switching; pseudonoise codes; synchronisation; television standards; CRC-type shortened cyclic code; FIR filter; FIR parity check codes; IEEE 802.14 standard; ITU standard; J.83R code; MCNS standard; MPEG 2 transport packet data stream; algebraic block codes; binary primitive polynomial; cable modem downstream transmission; computationally efficient implementation; digital cable television standard; dual code; error detection; finite-impulse response filter; linear block codes; packet synchronization; parity check FIR filter; pseudonoise sequence; recursive filter; self-synchronizing filter; synchronous digital communications system; Block codes; Cable TV; Digital communication; Encoding; Error correction; Finite impulse response filter; Modems; Nonlinear filters; Parity check codes; Polynomials;
Journal_Title :
Communications, IEEE Transactions on
