Title :
Efficient decoding algorithms for generalized Reed-Muller codes
Author :
Paterson, Kenneth G. ; Jones, Alan E.
Author_Institution :
Hewlett-Packard Lab.., Bristol, UK
fDate :
8/1/2000 12:00:00 AM
Abstract :
Previously, a class of generalized Reed-Muller (RM) codes has been suggested for use in orthogonal frequency-division multiplexing. These codes offer error correcting capability combined with substantially reduced peak-to mean power ratios. A number of approaches to decoding these codes have already been developed. Here, we present low complexity, suboptimal alternatives which are inspired by the classical Reed decoding algorithm for binary RM codes. We simulate these new algorithms along with the existing decoding algorithms using additive white Gaussian noise and two-path fading models for a particular choice of code. The simulations show that one of our new algorithms outperforms all existing suboptimal algorithms and offers performance that is within 0.5 dB of maximum-likelihood decoding, yet has complexity comparable to or lower than existing decoding approaches
Keywords :
AWGN; OFDM modulation; Reed-Muller codes; binary codes; computational complexity; decoding; error correction codes; fading channels; multipath channels; Reed decoding algorithm; additive white Gaussian noise; binary RM codes; efficient decoding algorithms; error correcting codes; generalized Reed-Muller codes; low complexity suboptimal decoding; maximum-likelihood decoding; orthogonal frequency-division multiplexing; peak-to mean power ratios; performance; power controlled coding; simulations; suboptimal algorithms; two-path fading models; Amplitude modulation; Error correction codes; Frequency division multiplexing; Laboratories; Maximum likelihood decoding; OFDM modulation; Phase modulation; Quadrature amplitude modulation; Signal processing; Signal processing algorithms;
Journal_Title :
Communications, IEEE Transactions on
