Title :
On repeated-root cyclic codes
Author :
Castagnoli, Guy ; Massey, James L. ; Schoeller, Philipp A. ; Von Seemann, Niklaus
Author_Institution :
Swiss Federal Inst. of Technol., Zurich, Switzerland
fDate :
3/1/1991 12:00:00 AM
Abstract :
A parity-check matrix for a q-ary repeated-root cyclic code is derived using the Hasse derivative. Then the minimum distance of a q-ary repeated-root cyclic code is expressed in terms of the minimum distance of a certain simple-root cyclic code. With the help of this result, several binary repeated-root cyclic codes of lengths up to n=62 are shown to contain the largest known number of codewords for their given length and minimum distance. The relative minimum distance dmin/n of q-ary repeated-root cyclic codes of rate r⩾R is proven to tend to zero as the largest multiplicity of a root of the generator g(x) increases to infinity. It is further shown that repeated-root cycle codes cannot be asymptotically better than simple-root cyclic codes
Keywords :
error correction codes; Hasse derivative; binary code; minimum distance; parity-check matrix; q-ary code; repeated-root cyclic codes; simple-root cyclic code; Block codes; Error correction codes; Galois fields; H infinity control; Helium; Information processing; Information theory; Parity check codes; Signal processing; Vectors;
Journal_Title :
Information Theory, IEEE Transactions on
