Title :
Multisequence shift register synthesis over commutative rings with identity with applications to decoding cyclic codes over integer residue rings
Author_Institution :
Dept. of Electr. & Comput. Eng., Nat. Univ. of Singapore, Singapore
Abstract :
We present a new algorithm for solving the multisequence shift register synthesis problem over a commutative ring R with identity. Given a finite set of R-sequences, each of length L, the complexity of our algorithm in terms of R-multiplications is O(L2) as L → ∞. An important application of this algorithm is in the decoding of cyclic codes over Zq up to the Hartmann-Tzeng bound, where q is a prime power. Characterization of the set of monic characteristic polynomials of a prescribed set of multiple syndrome sequences leads to an efficient decoding procedure, which we further extend to decode cyclic codes over Zm where m is a product of prime powers.
Keywords :
Galois fields; binary sequences; cyclic codes; decoding; polynomials; residue codes; Galois rings; Hartmann-Tzeng bound; R-sequences; commutative rings; complexity; cyclic codes; decoding; finite set; integer residue rings; minimal polynomials; monic characteristic polynomials; multiple syndrome sequences; multisequence shift register synthesis; prime powers; Application software; Codes; Decoding; Lead; Modules (abstract algebra); Polynomials; Power engineering and energy; Shift registers;
Journal_Title :
Information Theory, IEEE Transactions on
DOI :
10.1109/TIT.2003.821966
