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| Viterbi-bidirectional Searching Based ML Decoding Algorithm for Tail-biting Codes |
| Wang Xiao-tao①②③ Qian Hua①④ Kang Kai①④ |
①(Shanghai Institute of Microsystem and Information Technology, Chinese Academy of Sciences, Shanghai 200050, China)
②(Shanghai Research Center for Wireless Communications, Shanghai 200335, China)
③(Graduate University of Chinese Academy of Sciences, Beijing 100049, China)
④(Key Laboratory of Wireless Sensor Network & Communication, Shanghai Institute of Microsystem and Information Technology, Chinese Academy of Sciences, Shanghai 200335, China) |
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Abstract There exist two problems with the conventional Maximal Likelihood (ML) decoding algorithms: high decoding complexity and large memory space consumption. To solve these problems, a new algorithm that is based on Viterbi and bidirectional searching algorithm is proposed. By comparing the accumulated path metrics of survived paths with the path metric of ML tail-biting path, all of which are obtained in the Viterbi searching phase, the new algorithm deletes impossible starting states and their corresponding sub-tail-biting trellises to reduce the searching space for the second phase. In the second phase, the decoding complexity can be further reduced by comparing the path metric of ML tail-biting path with the threshold used in the bidirectional searching algorithm. Combing the Viterbi algorithm and bidirectional searching algorithm, a new ML decoding algorithm for tail-biting codes, which can be performed on tail-biting trellis with high efficiency, is obtained. The results of experiments show that the new algorithm improves the decoding efficiency and reduces the memory space consumption.
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Received: 19 September 2012
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Corresponding Authors:
Qian Hua
E-mail: hua.qian@shrcwc.org
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2013, Vol. 35 
