Quasi-optimal decoding of linear block codes using soft decision detection
Abstract
A simple but effective decoding procedure, applicable to any (n,k) linear block code with symbols from GF(q), is described. The technique involves a transformation of the parity check equations which focuses the code's correction power on the soft symbol set while still retaining the capability to correct one symbol error from outside this set. The soft symbol set is defined to be the n-k least reliably detected code symbol positions whose parity check row-spaces are linearly independent. The process generates a number of error vector screening candidates, each a solution to the parity check equations, and the maximum-likelihood candidate is accepted.
- Publication:
-
ITC/USA/'78; Proceedings of the International Telemetering Conference
- Pub Date:
- 1978
- Bibcode:
- 1978itc..proc..481G
- Keywords:
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- Data Transmission;
- Decoding;
- Error Correcting Codes;
- Signal Detection;
- Signal Encoding;
- Redundancy Encoding;
- Reliability Engineering;
- Screening;
- Symbols;
- Transmission Efficiency;
- Communications and Radar