双扩展水声信道的时延多普勒域稀疏估计  被引量：3

作　　者：伍飞云[1,2] 童峰 WU Feiyun;TONG Feng(Key Laboratory of Underwater Acoustic Communication and Marine Information Technique of the Ministry of Education （Xiamen University） Xiamen 361005;School of Marine Science and Technology, Northwestern Polytechnical University Xian 710072)

机构地区：[1]厦门大学水声通信与海洋信息技术教育部重点实验室,厦门361005 [2]西北工业大学航海学院,西安710072

出　　处：《声学学报》2018年第4期546-555,共10页Acta Acustica

基　　金：国家自然科学基金项目(61701405,11274259,11574258)资助

摘　　要：利用双扩展水声信道在时延-多普勒域存在的稀疏结构,将信道估计转化为压缩感知框架下的稀疏恢复问题可改善估计性能。但是,稀疏恢复经典方法如l_1范数、近似l_0范数无法适应水声信道时延-多普勒域稀疏度的动态变化,而匹配追踪（Matching pursuit,MP）、正交匹配追踪（Orthogonal Matching Pursuit,OMP）等贪婪类算法则存在着易进入局部最优解、二维搜索导致运算复杂度高等问题。提出在时延-多普勒域稀疏恢复的目标函数中引入非均匀范数约束（Non-uniform Norm Constraint,NNC）,即在时延-多普勒域信道响应中根据每个时延-多普勒域位置的幅值分别分配为l_0或l_1范数约束,因而可通过不同范数约束组合的方式适应不同的时延-多普勒域稀疏度;同时,通过对非均匀范数代价函数进行梯度下降迭代求解并将梯度解投影至解空间推导了非均匀范数稀疏恢复的迭代求解方法,从而实现双扩展水声信道时延-多普勒估计。数值仿真和实验数据处理表明该算法相对经典方法有较明显的性能改善。通过仿真、海上水声通信实验结果可获取结论,利用时延-多普勒域稀疏特性的信道估计方法结合均衡器可有效提高双扩展信道条件下的水声通信性能。In view of the Delay-Doppler （DD） domain sparse structure, estimation of doubly-spread UWA channel can be converted to the problem of sparse recovery under the framework of compressed sensing to achieve performance gain. Although the classic sparse recovery methods such as 11 norm, or approximated l0 norm algorithms are subject to performance degradation at the presence of various sparsity pattern of the UWA channels, greedy methods including MP （matching pursuit） and OMP （orthogonal matching pursuit） suffer from the drawbacks of local minima traps. A newly defined non-uniform norm constraint （NNC） is proposed to assign into the two dimension objective function of the DD domain sparse recovery, i.e., sparse components in the DD domain are uniformly formulated as 11 norm or l0 norm constraint according to relative magnitude, to enable sparsity adaptability at the form of different 11 norm or 10 norm mixture. Meanwhile, the iterative method for NN domain sparse recovery is derived by the gradient descent recursion and projecting the solution of which to feasible set. Numerical simulation validates the performance improvement of the proposed algorithm compared to the traditional methods. Furthermore, the UWA communication experimental results demonstrate the superiority of the proposed method in the form of an equalizer driven by channel estimator.

关 键 词：多普勒估计 水声信道 稀疏度 估计性能 时延 实验数据处理 范数约束 匹配追踪 

分 类 号：TN929.3[电子电信—通信与信息系统]