电子与信息学报
電子與信息學報
전자여신식학보
JOURNAL OF ELECTRONICS & INFORMATION TECHNOLOGY
2014年
6期
1465-1471
,共7页
水声通信%时间扩展%时间反转%白化滤波器%马尔可夫链蒙特卡罗均衡
水聲通信%時間擴展%時間反轉%白化濾波器%馬爾可伕鏈矇特卡囉均衡
수성통신%시간확전%시간반전%백화려파기%마이가부련몽특잡라균형
Underwater acoustic communication%Time spread%Time reversal%Whitening filter%Markov Chain Monte Carlo (MCMC) equalization
Turbo均衡应用在水声通信中的问题主要在于水声信道时间扩展长,多接收阵元处理复杂度较高。该文研究了将时间反转与马尔可夫链蒙特卡罗(MCMC)均衡联合优化算法用于实现 Turbo 均衡。首先进行时间反转实现多接收阵元较长多径时延的压缩,再利用白化滤波器解决时间反转造成的噪声模型失配问题,最后利用复杂度较低的MCMC均衡器结合软迭代信道估计对时间反转合并后得到的信号进行均衡。结合真实实验信道条件对信道响应估计的误差建立模型,通过仿真比较得出,该算法在相同条件下相对于多阵元直接自适应Turbo均衡算法复杂度降低67%,且有1.6 dB的误码率性能增益。通过对湖上试验数据进行处理,进一步验证了该算法的优势。
Turbo均衡應用在水聲通信中的問題主要在于水聲信道時間擴展長,多接收陣元處理複雜度較高。該文研究瞭將時間反轉與馬爾可伕鏈矇特卡囉(MCMC)均衡聯閤優化算法用于實現 Turbo 均衡。首先進行時間反轉實現多接收陣元較長多徑時延的壓縮,再利用白化濾波器解決時間反轉造成的譟聲模型失配問題,最後利用複雜度較低的MCMC均衡器結閤軟迭代信道估計對時間反轉閤併後得到的信號進行均衡。結閤真實實驗信道條件對信道響應估計的誤差建立模型,通過倣真比較得齣,該算法在相同條件下相對于多陣元直接自適應Turbo均衡算法複雜度降低67%,且有1.6 dB的誤碼率性能增益。通過對湖上試驗數據進行處理,進一步驗證瞭該算法的優勢。
Turbo균형응용재수성통신중적문제주요재우수성신도시간확전장,다접수진원처리복잡도교고。해문연구료장시간반전여마이가부련몽특잡라(MCMC)균형연합우화산법용우실현 Turbo 균형。수선진행시간반전실현다접수진원교장다경시연적압축,재이용백화려파기해결시간반전조성적조성모형실배문제,최후이용복잡도교저적MCMC균형기결합연질대신도고계대시간반전합병후득도적신호진행균형。결합진실실험신도조건대신도향응고계적오차건립모형,통과방진비교득출,해산법재상동조건하상대우다진원직접자괄응Turbo균형산법복잡도강저67%,차유1.6 dB적오마솔성능증익。통과대호상시험수거진행처리,진일보험증료해산법적우세。
The main problems of the application of the Turbo equalizer in underwater acoustic communication are long time spread of channel and the multi-array processing. The union algorithm of time reversal and Markov Chain Monte Carlo (MCMC) equalization is proposed. Time reversal compresses the long time spread by combining multi-array signal, then the whitening filter is adopted to the solution of the noise model mismatch, at last the MCMC equalizer under optimal Maximum A Posteriori (MAP) criterion realizes the soft-in soft-out equalizer with the channel information obtained by channel estimation of soft iteration. The simulation based on the real experimental condition is conducted for the error model of truncated channel estimation. Simulation results denote that, this algorithm gets 1.6 dB Bit Error Rate (BER) performance gain, and 67%complexity loss over adaptive Turbo equalization. In the real experiment conducted in a lake, result of data processing denotes that the union algorithm of time reversal and MCMC equalizer have a superior performance over the algorithm of multichannel adaptive Turbo equalizer.
