计算机工程与应用
計算機工程與應用
계산궤공정여응용
COMPUTER ENGINEERING AND APPLICATIONS
2014年
1期
111-115
,共5页
裴晓黎%宁小玲%刘忠%张建强
裴曉黎%寧小玲%劉忠%張建彊
배효려%저소령%류충%장건강
水声信道%自适应均衡%盲均衡%判决反馈%数字锁相环
水聲信道%自適應均衡%盲均衡%判決反饋%數字鎖相環
수성신도%자괄응균형%맹균형%판결반궤%수자쇄상배
underwater acoustic channel%adaptive equalization%blind equalization%decision feedback%Digital Phase-Locked Loop(DPLL)
简述了自适应均衡算法和盲均衡算法在水声通信中的应用现状,以及典型的几种均衡算法。分别采用稀疏多径信道和混合相位信道对几种典型的自适应算法和盲均衡算法的均方误差(MSE)性能进行了仿真比较,结果显示,判决反馈均衡器(DFE)结构的算法在以上复杂水声环境中均衡效果良好;采用稀疏多径相位旋转复信道对典型的自适应、盲均衡算法进行了仿真比较,结果表明,在相同的条件下,自适应算法受相位的影响较小,收敛速度快于盲均衡算法。消声水池实验表明了带二阶数字锁相环(DPLL)和DFE结构的均衡算法均具有较好的载波恢复性能,实现了对相位偏差的跟踪,提高了克服多径效应和多普勒频移补偿的能力。
簡述瞭自適應均衡算法和盲均衡算法在水聲通信中的應用現狀,以及典型的幾種均衡算法。分彆採用稀疏多徑信道和混閤相位信道對幾種典型的自適應算法和盲均衡算法的均方誤差(MSE)性能進行瞭倣真比較,結果顯示,判決反饋均衡器(DFE)結構的算法在以上複雜水聲環境中均衡效果良好;採用稀疏多徑相位鏇轉複信道對典型的自適應、盲均衡算法進行瞭倣真比較,結果錶明,在相同的條件下,自適應算法受相位的影響較小,收斂速度快于盲均衡算法。消聲水池實驗錶明瞭帶二階數字鎖相環(DPLL)和DFE結構的均衡算法均具有較好的載波恢複性能,實現瞭對相位偏差的跟蹤,提高瞭剋服多徑效應和多普勒頻移補償的能力。
간술료자괄응균형산법화맹균형산법재수성통신중적응용현상,이급전형적궤충균형산법。분별채용희소다경신도화혼합상위신도대궤충전형적자괄응산법화맹균형산법적균방오차(MSE)성능진행료방진비교,결과현시,판결반궤균형기(DFE)결구적산법재이상복잡수성배경중균형효과량호;채용희소다경상위선전복신도대전형적자괄응、맹균형산법진행료방진비교,결과표명,재상동적조건하,자괄응산법수상위적영향교소,수렴속도쾌우맹균형산법。소성수지실험표명료대이계수자쇄상배(DPLL)화DFE결구적균형산법균구유교호적재파회복성능,실현료대상위편차적근종,제고료극복다경효응화다보륵빈이보상적능력。
Adaptive equalization and blind equalization used in underwater acoustic communication and some representa-tive algorithms are briefly introduced. The computer simulations of adaptive and blind algorithms about Mean Square Error (MSE)ability are carried out respectively under sparse multi-paths and mixed phase underwater acoustic channels, the simulation results demonstrate that the algorithms using Decision Feedback Equalizer(DFE)structure have better equalization result in above complex underwater acoustic environment;and then the simulation comparison of some representative adaptive and blind equalization algorithms are carried out under sparse multi-paths phase rotation complex channels, the results show that the affected degree of adaptive equalization algorithm to phase is smaller than that of blind equalization algorithms and the convergence speed of adaptive equalization algorithm is faster than that of blind equalization algorithms. At the same time, the anechoic tank experiment is carried out to verify the performance of algorithms about carrier recovery, the experiments verify that equalization algorithms with second order Digital Phase-Locked Loop(DPLL)and DFE structure have better performance and realize the tracking ability of phase deviation, overcome multi-path effect and improve the compensation ability of Doppler shift.