Title :
Nonbinary double-error-correcting codes designed by means of algebraic varieties
Author_Institution :
Inst. for Problems of Inf. Transmission, Acad. of Sci., Moscow, Russia
fDate :
11/1/1995 12:00:00 AM
Abstract :
Linear q-ary codes of growing length n→∞ and designed distance δ are studied. At first, we examine cyclic codes defined by the sets of code zeros {gi|i=qs+1, qs+1 +1, ···, qs+δ-2+1} over a primitive element g of GF(qm). Then special cubic varieties are designed and employed in order to attain distances δ=5, 6. The resulting double-error-correcting codes of length n=qm have r⩽2m+[m/3]+1 parity check symbols, and reduce the best known redundancy by [2m/3] symbols. A decoding procedure of complexity O(rn) operations is also considered
Keywords :
BCH codes; Galois fields; algebraic codes; cyclic codes; decoding; error correction codes; linear codes; redundancy; GF(qm); algebraic varieties; code zeros; complexity; cubic varieties; cyclic codes; decoding procedure; linear q-ary codes; nonbinary double-error-correcting codes; parity check symbols; primitive element; redundancy; Decoding; Error correction codes; Mathematics; Parity check codes; Redundancy; Upper bound;
Journal_Title :
Information Theory, IEEE Transactions on
