Title :
Serial concatenation of interleaved codes: performance analysis, design, and iterative decoding
Author :
Benedetto, Sergio ; Divsalar, Dariush ; Montorsi, Guido ; Pollara, Fabrizio
Author_Institution :
Dipt. di Elettronica, Politecnico di Torino, Italy
fDate :
5/1/1998 12:00:00 AM
Abstract :
A serially concatenated code with interleaver consists of the cascade of an outer encoder, an interleaver permuting the outer codewords bits, and an inner encoder whose input words are the permuted outer codewords. The construction can be generalized to h cascaded encoders separated by h-1 interleavers. We obtain upper bounds to the average maximum-likelihood bit error probability of serially concatenated block and convolutional coding schemes. Then, we derive design guidelines for the outer and inner encoders that maximize the interleaver gain and the asymptotic slope of the error probability curves. Finally, we propose a new, low-complexity iterative decoding algorithm. Throughout the paper, extensive comparisons with parallel concatenated convolutional codes known as “turbo codes” are performed, showing that the new scheme can offer superior performance
Keywords :
block codes; coding errors; concatenated codes; convolutional codes; decoding; error statistics; interleaved codes; iterative methods; probability; asymptotic slope; average maximum-likelihood bit error probability; block coding; cascaded encoders; code design; inner encoder; input words; interleaved codes; interleaver gain; iterative decoding; low-complexity iterative decoding algorithm; outer encoder; parallel concatenated convolutional codes; performance analysis; permuted outer codewords; serial concatenation; serially concatenated code; turbo codes; upper bounds; Block codes; Concatenated codes; Convolutional codes; Error probability; Interleaved codes; Iterative decoding; Maximum likelihood decoding; Performance analysis; Propulsion; Turbo codes;
Journal_Title :
Information Theory, IEEE Transactions on
