Title :
Asymptotically good codes have infinite trellis complexity
Author :
Lafourcade, A. ; Vardy, Alexander
Author_Institution :
Coordinated Sci. Lab., Illinois Univ., Urbana, IL, USA
fDate :
3/1/1995 12:00:00 AM
Abstract :
The trellis complexity s(C) of a block code C is defined as the logarithm of the maximum number of states in the minimal trellis realization of the code. The parameter s(C) governs the complexity of maximum-likelihood decoding, and is considered a fundamental descriptive characteristic of the code in a number of recent works. We derive a new lower bound on s(C) which implies that asymptotically good codes have infinite trellis complexity. More precisely, for i⩾1 let Ci be a code over an alphabet of size q, of length ni, rate Ri, and minimum distance di. The infinite sequence of codes C, C2··· such that ni→∞ when i→∞ is said to be asymptotically good if both Ri and di/ni are bounded away from zero as i→∞. We prove that the complexity s(Ci) increases linearly with ni in any asymptotically good sequence of codes
Keywords :
block codes; computational complexity; linear codes; maximum likelihood decoding; alphabet size; asymptotically good codes; infinite sequence; infinite trellis complexity; linear block code; logarithm; lower bound; maximum-likelihood decoding; minimal trellis realization; minimum distance; Block codes; Error correction codes; Hamming weight; Maximum likelihood decoding; Time varying systems;
Journal_Title :
Information Theory, IEEE Transactions on
