Design and VLSI implementation of a Low Probability of Error Viterbi Decoder

C. Arun, V. Rajamani
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引用次数: 21

Abstract

The use of error-correcting codes has proven to be an effective way to overcome data corruption in digital wireless communication channels, enabling reliable transmission to be achieved over noisy and fading channels. In this paper a novel approach to design a high throughput with reduced bit error probability Viterbi decoder is described and implemented. Low bit error rate (BER) can be achieved by increasing the free distance (dfree) of the Viterbi decoder without increasing complexity. The increase in dfree has been achieved by a proposed non-polynomial convolutional code method. A decoder system with code rate of k/n=frac14, constrain length K=3 has been implemented on Xilinx Spartan-III. The performance of viterbi decoder with the proposed method has been improved from 27% to 75% of errors are detected and corrected. We have also achieved a high speed (84.958 Mbps) and low Bit Error Rate (BER) viterbi decoder. Experimental results shows that the proposed viterbi decoder provides satisfactory Pe performance and high operating speed under various conditions including AWGN, co-channel interference and adjacent channel interference environments.
一种低误差概率维特比解码器的设计与VLSI实现
使用纠错码已被证明是克服数字无线通信信道中数据损坏的有效方法,能够在噪声和衰落信道上实现可靠传输。本文描述并实现了一种设计高吞吐量、低误码率维特比解码器的新方法。低误码率(BER)可以通过增加Viterbi解码器的自由距离(dfree)而不增加复杂度来实现。通过提出的非多项式卷积编码方法实现了dfree的增加。在Xilinx Spartan-III上实现了码率为k/n=frac14,约束长度为k =3的译码系统。采用该方法,维特比解码器的检测和纠错率从27%提高到75%。我们还实现了高速(84.958 Mbps)和低误码率(BER)的viterbi解码器。实验结果表明,所提出的viterbi译码器在AWGN、同信道干扰和相邻信道干扰等多种环境下均具有满意的Pe性能和较高的运算速度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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