Title :
Selective avoidance of cycles in irregular LDPC code construction
Author :
Tian, Tao ; Jones, Christopher R. ; Villasenor, John D. ; Wesel, Richard D.
Author_Institution :
Electr. Eng. Dept., Univ. of California, Los Angeles, CA, USA
Abstract :
This letter explains the effect of graph connectivity on error-floor performance of low-density parity-check (LDPC) codes under message-passing decoding. A new metric, called extrinsic message degree (EMD), measures cycle connectivity in bipartite graphs of LDPC codes. Using an easily computed estimate of EMD, we propose a Viterbi-like algorithm that selectively avoids small cycle clusters that are isolated from the rest of the graph. This algorithm is different from conventional girth conditioning by emphasizing the connectivity as well as the length of cycles. The algorithm yields codes with error floors that are orders of magnitude below those of random codes with very small degradation in capacity-approaching capability.
Keywords :
decoding; error statistics; graph theory; message passing; parity check codes; LDPC code construction; Viterbi-like algorithm; bipartite graphs; capacity-approaching capability; error-floor performance; extrinsic message degree; girth conditioning; graph connectivity; graph cycles; iterative decoding; low-density parity-check codes; message-passing decoding; small cycle cluster; stopping sets; unstructured graph construction; AWGN; Bipartite graph; Bit error rate; Clustering algorithms; Decoding; Degradation; Floors; Iterative algorithms; Parity check codes; Tree graphs; EMD; Error floor; LDPC; codes; extrinsic message degree; graph cycles; irregular low-density parity-check; iterative decoding; message passing; stopping sets; unstructured graph construction;
Journal_Title :
Communications, IEEE Transactions on
DOI :
10.1109/TCOMM.2004.833048
