Title :
Performance bounds for serially-concatenated trellis-coded modulation
Author_Institution :
Radix Technol., Mountain View, CA, USA
Abstract :
Previous advances using iterative (turbo) decoding techniques have resulted in codes that not only approach the Shannon limit for additive white Gaussian noise (AWGN) channels but are also readily implemented in practice. The original turbo codes include a pair of encoders separated by an interleaver and concatenated in parallel. New turbo codes developed by Benedetto et al. (see IEEE Trans. on. Communications, vol.44, no.5, p.591-600, 1996) include a pair of convolutional encoders also separated by an interleaver but concatenated serially. We extend the work of Benedetto et al. to serially-concatenated trellis-coded modulation (SCTCM). We determine the Bhattacharyya bound for maximum-likelihood decoding using the concept of the uniform interleaver. This bound enables us to determine the key parameters that can be used to develop a systematic code design strategy. We discuss both these results and the accuracy of the bound.
Keywords :
Gaussian channels; concatenated codes; convolutional codes; interleaved codes; maximum likelihood decoding; trellis coded modulation; AWGN; Bhattacharyya bound; Shannon limit; accuracy; additive white Gaussian noise channels; convolutional encoders; iterative decoding; maximum-likelihood decoding; performance bounds; serially-concatenated trellis-coded modulation; systematic code design; turbo codes; turbo decoding; uniform interleaver; Bandwidth; Concatenated codes; Convolutional codes; Costs; Design methodology; Euclidean distance; Hamming weight; Iterative decoding; Modulation coding; Transfer functions;
Conference_Titel :
Signals, Systems & Computers, 1997. Conference Record of the Thirty-First Asilomar Conference on
Conference_Location :
Pacific Grove, CA, USA
Print_ISBN :
0-8186-8316-3
DOI :
10.1109/ACSSC.1997.679126
