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作 者:李昂[1] 陈姝君[1] 王艳[1] LI Ang;CHEN Shu-jun;WANG Yan(Nanjing University of Science and Technology Zijin College,Jiangsu Nanjing 210023,China)
机构地区:[1]南京理工大学紫金学院
出 处:《中国电子科学研究院学报》2019年第10期1083-1087,共5页Journal of China Academy of Electronics and Information Technology
基 金:2018江苏省高等学校自然科学研究面上项目(18KJD510004)
摘 要:水域环境对声信号的强衰减特性加大了测距的难度。然而,现存的测距算法要求多次的射线踪迹迭代才能达到一定测距精度。而在实时的测距环境很难实现多次迭代。为此,提出基于BELLHOP的实时声测距(real-time acoustic ranging,RAR)算法。RAR算法对声速时变和声射线轨迹进行补偿,降低了搜索空间,减少了计算开销。实验数据表明,与基于射线的根搜索测距(raybased root finding ranging,RRFR)算法相比,提出的RAR算法能够在测距精度和计算开销获取了更好的平衡。The strong attenuation characteristics of acoustic signals in water environment make the ranging more difficult. However,the existing ranging algorithms require multiple iterations of ray tracks to achieve certain ranging accuracy. However,it is difficult to achieve multiple iterations in the real-time ranging environment. Therefore,BELLHOP-based Real-time Acoustic Ranging( RAR) is proposed in this paper. RAR compensate for the sound speed variations and acoustic ray trajectories,and reduce the search space,in order to reduce computational overhead. Compared with,Our experimental studies verified that the RAR scheme can achieve better tradeoff between accuracy and computational overhead than Ray-based Root Finding Ranging( RRFR) algorithm.
分 类 号:TN914[电子电信—通信与信息系统]
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