Iterative Decoding Structure Design of LPCA-Turbo
Information and Computing Science, 2009. ICIC '09. Second International Conference(2009)
Abstract
An improved decoding structure of LPCA-Turbo (Linear Prediction Control Algorithm, Turbo code) is presented in this paper. A linear module established by the values of the former exterior information of the component decoder could be equivalent to the SISO module. By the linear module the value of № (n+1) exterior information could be predicted. The computation quantity and time of the LPCA will be smaller than the traditional decoding algorithm. Therefore, the complexity and delay of the decoding algorithm can be reduced by the new decoding scheme presented in this paper. What is shown in the simulation result is that while the error-rate performance of the new decoding structure based on LPCA is only lower by 0.1-0.2dB than the traditional Turbo decoding structure, a decoding iterative process of the component decoder could be reduced in the LPCA-Turbo.
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Key words
iterative decoding structure design,new decoding scheme,improved decoding structure,decoding algorithm,decoding iterative process,linear module,traditional turbo decoding structure,component decoder,traditional decoding algorithm,siso module,new decoding structure,turbo codes,algorithm design and analysis,turbo code,decoding,error rate,linear predictive coding,iterative algorithm,real time systems,prediction algorithms,computational modeling,switches
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