Method of decoding a correcting code, for example a turbo-code, by analysis of the extended spectrum of the words of the code

The invention claimed is: 1. A computer-implemented iterative method for decoding a received code word from a correcting code, the code word being represented by a local likelihood value for each bit of the code word, the iterative method comprising the following steps executed by a processor and a memory: analysing an extended spectrum of words of the correcting code to generate a table containing, for each bit of a code word, an information regarding distance between the code word and the code word obtained by decoding and then re-encoding the code word for which a value of a bit is erroneous, and for each bit of index i of a subset of bits of the code word received, executing in an iterative manner the following steps: decoding the received code word, calculating an overall likelihood value IM(i) for the decoded code word, comparing, onwards of a second iteration (i=2), the overall likelihood value IM(i) calculated at a current iteration with an overall likelihood value IM(i−1) calculated at a previous iteration, modifying an amplitude and a sign of a local likelihood value LLR(i) for a bit of index i of the received code word, the selected index i corresponding to that index of the table which is associated with a lowest distance in the table, from among indices not selected at a previous iteration, onwards of the second iteration (i=2), if the overall likelihood value IM(i) calculated at the current iteration is less than the overall likelihood value IM(i−1) calculated at the previous iteration, reinitializing the local likelihood value LLR(i−1) of the bit of index i−1 of the received code word that was modified at the previous iteration. 2. The iterative method of claim 1 , further comprising a stopping test. 3. The iterative method of claim 2 , in which the decoding step is iterative and the stopping test is a test on the number of iterations of the decoding step. 4. The iterative method of claim 2 , in which the stopping test is a test of convergence of the decoding step. 5. The iterative method of claim 4 , in which the convergence test comprises a detection of an error in a result of the decoding step by application of an error-detecting code. 6. The iterative method of claim 4 , in which the convergence test comprises a comparison of the overall likelihood value IM(i) with a predetermined threshold value. 7. The iterative method of claim 1 , in which the overall likelihood value IM(i) is a mutual information. 8. The iterative method of claim 1 , in which the overall likelihood value IM(i) is equal to an inverse of an Euclidian distance between the decoded and then re-encoded code word and the received code word. 9. The iterative method of claim 1 , in which the subset of the bits of the received code word is equal to the entirety of the bits of the received code word or to a subset consisting of bits with a local likelihood value LLR that is below a predetermined threshold. 10. The iterative method of claim 1 , in which analysing the extended spectrum comprises: selecting a code word, for each bit of the code word, executing in an iterative manner the following: modifying the value of the bit, decoding the modified code word, encoding the result of the decoding, and calculating a distance between the result of the encoding and the modified code word. 11. The iterative method of claim 1 , in which the correcting code is a turbo-code or an LDPC code. 12. A computer program comprising instructions stored on a tan non-transitory storage medium for executing on a processor an iterative method for decoding a received code word from a correcting code, the code word being represented by a local likelihood value for each bit of the code word, the iterative method comprising: analysing an extended spectrum of words of the correcting code to generate a table containing, for each bit of a code word, an information regarding distance between the code word and the code word obtained by decoding and then re-encoding the code word for which the value of a bit is erroneous, and for each bit of index i of a subset of bits of the code word received, executing in an iterative manner the following steps: decoding the received code word, calculating an overall likelihood value IM(i) for the decoded code word, comparing, onwards of a second iteration (i=2), the overall likelihood value IM(i) calculated at a current iteration with an overall likelihood value IM(i−1) calculated at a previous iteration, modifying an amplitude and a sign of a local likelihood value LLR(i) for a bit of index i of the received code word, the selected index i corresponding to that index of the table which is associated with a lowest distance in the table, from among indices not selected at a previous iteration, onwards of the second iteration (i=2), if the overall likelihood value IM(i) calculated at the current iteration is less than the overall likelihood value IM(i−1) calculated at the previous iteration, reinitializing the local likelihood value LLR(i−1) of the bit of index i−1 of the received code word that was modified at the previous iteration. 13. A tangible non-transitory processor-readable recording medium on which is recorded a program comprising instructions for executing an iterative method for decoding a received code word from correcting code, the code word being represented by a local likelihood value for each bit of the code word, the iterative method comprising: analysing an extended spectrum of words of the correcting code to generate a table containing, for each bit of code word, an information regarding distance between the code word and the code word obtained by decoding and then re-encoding the code word for which the value of a bit is erroneous, and for each bit of index i of a subset of bits of the code word received, executing in an iterative manner the following steps: decoding the received code word, calculating an overall likelihood value IM(i) for the decoded code word, comparing, onwards of a second iteration (i=2), the overall likelihood value IM(i) calculated at a current iteration with an overall likelihood value IM(i−1) calculated at a previous iteration, modifying an amplitude and a sign of a local likelihood value LLR(i) for a bit of index i of the received code word, the selected index i corresponding to that index of the table which is associated with a lowest distance in the table from a on indices not selected at a previous iteration, onwards of the second iteration (i=2), if the overall likelihood value IM(i) calculated at the current iteration is less than the overall likelihood value IM(i−1) calculated at the previous iteration, reinitializing the local likelihood value LLR(i−1) of the bit of index i−1 of the received code word that was modified at the previous iteration. 14. A device comprising a processor and a memory configured for executing an iterative method for decoding a received code word from a correcting code, the code word being represented by a local likelihood value for each bit of the code word, the iterative method comprising: analysing an extended spectrum of words of the correcting code to generate a table containing, for each bit of a code word, an information regarding distance between the code word and the code word obtained by decoding and then re-encoding the code word for which the value of a bit is erroneous, and for each bit of index i of a subset of bits of the code word received, executing in an iterative manner the following steps: decoding the received code word, calculating an overall likelihood value IM(i) for the decoded code word, comparing, onwards of a second i