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引用次数: 1
摘要
Turbo码和低密度奇偶校验(LDPC)码由于其令人印象深刻的纠错性能,在许多通信标准中都被推荐为FEC码。针对两种码都能译码的通用体系结构,本文介绍了用LDPC码常用的消息传递算法译码turbo码的方法。该方法将turbo码视为分组码,并通过Smith分解或GBT (Generator matrix based transformation)构造稀疏奇偶校验矩阵。为了保证译码性能,我们提出了turbo码不含4周期的准则,并通过数学验证和仿真结果验证了该准则。
Design of turbo codes without 4-cycles in Tanner graph representation for message passing algorithm
Turbo code and Low Density Parity Check (LDPC) code are both recommended as FEC code in many communication standards owing to their impressive error correcting performance. Aiming at the common architecture which can decode both of the two codes, this paper describes the method of decoding turbo codes with message passing algorithm which is conventionally used for LDPC codes. In this method, turbo codes are viewed as block codes and the sparse parity check matrices are constructed through Smith Decomposition or GBT (Generator matrix based transformation). In order to guarantee decoding performance, we propose the criterion of turbo codes with no 4-cycles, which is mathematically proved and demonstrated by the simulation results.
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