Title :
Error-locator ideals for algebraic-geometric codes
Author :
Leonard, Douglas A.
Author_Institution :
Dept. of Discrete & Stat. Sci., Auburn Univ., AL, USA
fDate :
5/1/1995 12:00:00 AM
Abstract :
The error locations for an algebraic-geometric code C*(D,mP) are exactly the common zeros (that is, a projective variety V(I)) of a set (ideal) I of error-locator functions. The paper gives a one-dimensional Berlekamp-Massey version of the Feng-Rao (1993) algorithm for decoding algebraic-geometric codes C*(D,mP). This produces a generating set for I (as an ideal) of size at most ρ (the smallest positive pole order at P of any function in L(mP)) relative to any error of weight at most e<½δm*, with δm*:=m-2g+2 the designed minimum distance of the code. This algorithm requires at most c(ρm2+Nρm+ρ2m) field multiplications, with c a small constant, and N a small constant function of the curve. The error-positions are then given as exactly the common zeros of generator functions of the error-locator ideal I
Keywords :
algebraic geometric codes; coding errors; decoding; poles and zeros; Feng-Rao algorithm; algebraic-geometric codes; decoding; error-locator ideals; error-positions; generating set; generator functions; minimum distance; one-dimensional Berlekamp-Massey version; pole; zeros; Algorithm design and analysis; Decoding; Galois fields; Geometry; Heart; IEEE products; Inference algorithms; Linear code; Vectors; Voting;
Journal_Title :
Information Theory, IEEE Transactions on
