|
|
论文:2021,Vol:39,Issue(3):492-501 |
|
|
引用本文: |
|
|
刘丽丽, 李京华, 冯晓毅, 石海杰, 张晓彪. 基于直方图滤波的浅海声源测距算法研究[J]. 西北工业大学学报 |
|
|
LIU Lili, LI Jinghua, FENG Xiaoyi, SHI Haijie, ZHANG Xiaobiao. Research on underwater sound source ranging algorithm based on histogram filtering[J]. Northwestern polytechnical university |
|
|
|
|
|
|
|
| 基于直方图滤波的浅海声源测距算法研究 |
|
| 刘丽丽, 李京华, 冯晓毅, 石海杰, 张晓彪 |
|
| 西北工业大学 电子信息学院, 陕西 西安 710072 |
| 摘要: |
| 针对浅海移动声源的测距,提出了基于直方图滤波的水下测距算法。该算法以声传播过程中传播损失和目标运动参数以及接收信号作为先验知识,对声源位置函数形成的状态向量进行更新,从而实现浅海声源的测距,并用SwellEx-96实测海试数据库进行了算法的实验验证。结果表明:对移动声源的测距深度误差较小,而探测的水平距离在10 km范围时,水平距离最大测距误差在±10 m,并且可以通过改善目标运动参数等先验知识提高对声源测距的精度,验证了直方图滤波算法可较好地实现对水下移动目标的测距。 |
| 关键词:
水下测距
浅海声源
统计模拟方法声场建模
概率密度
直方图滤波
|
|
| Research on underwater sound source ranging algorithm based on histogram filtering |
|
| LIU Lili, LI Jinghua, FENG Xiaoyi, SHI Haijie, ZHANG Xiaobiao |
|
| School of Electronics and Information, Northwestern Polytechnical University, Xi'an 710072, China |
| Abstract: |
| Aiming at the distance measurement of moving sound sources in shallow seas, this paper proposes a method of histogram filtering to realize underwater distance estimation of moving sound sources in shallow seas. The algorithm used the transmission loss, target motion parameter in the sound propagation and receival signal as prior knowledge to updated the state vector of the sound source, so as to realize the distance estimation of the shallow sea sound source, and this paper used SwellEx-96 database for experimental verification. The experimental results shown that:the depth estimating error of moving sound source is small, and when the detected horizontal distance is in the range of 10 km, the maximum range error of the horizontal distance is �10 m, meanwhile the accuracy of ranging can be improved by improving the prior knowledge of the target motion parameters, which verifies that the histogram filtering algorithm can achieve better ranging for underwater moving targets. |
| Key words:
underwater distance estimation
shallow sea sound source
statistical simulation method acoustic field modeling
probability density
histogram filtering
|
|
| 收稿日期: 2020-10-15
修回日期:
|
| DOI: 10.1051/jnwpu/20213930492 |
| 基金项目: 近地面探测技术重点实验室项目(TCGZ2020C002)资助 |
| 通讯作者: 李京华(1964-),女,西北工业大学教授,主要从事信号与信息处理、声探测研究。e-mail:lihy6331@nwpu.edu.cn
Email:lihy6331@nwpu.edu.cn |
| 作者简介: 刘丽丽(1995-),女,西北工业大学博士研究生,主要从事信号处理、目标跟踪研究。
|
|
|
|
|
|
|
|
参考文献: |
|
|
[1] 王奇,陈航,王英民, 等. 浅海环境下稳健的最小二乘匹配场定位算法[J]. 西北工业大学学报, 2017, 35(3):480-485 WANG Qi, CHEN Hang, WANG Yingmin, et al. Robust matched field localization algorithm based on least squares in shallow water[J]. Journal of Northwestern Polytechnical University, 2017, 35(3):480-485(in Chinese)
[2] QIU J, XING Z, ZHU C, et al. Centralized fusion based on interacting multiple model and adaptive Kalman filter for target tracking in underwater acoustic sensor networks[J]. IEEE Access, 2019, 7(7):25948-25958
[3] 郭晓乐, 杨坤德, 马远良, 等. 浅海声速剖面与移动声源的跟踪定位[J]. 声学学报, 2017, 42(1):1-13 GUO Xiaole, YANG Kunde, MA Yuanliang, et al. Tracking-positioning of sound speed profiles and moving acoustic source in shallow water[J]. Acta Acustica, 2017, 42(1):1-13(in Chinese)
[4] 高飞, 孙磊. 基于首达波与次达波到达时差的深海浅层移动声源定位[J]. 兵工学报, 2018, 39(11):2243-2248 GAO Fei, SUN Lei. Localization of moving acoustic source in shallow layer of deep ocean based on the time difference of arrival between the first and second waves[J]. Acta Armamentaria, 2018, 39(11):2243-2248(in Chinese)
[5] CHEN T. Source localization using matched-phase matched-field processing with phase descent search[J]. IEEE Journal of Oceanic Engineering, 2012, 37(2):261-270
[6] ENSBERG D. The swellex-96 experiment[EB/OL]. (1996-05-18)[2018-03-20]. http://swellex96.ucsd.edu/index.htm
[7] KUSEL E T, SIDERIUS M. Comparison of propagation models for the characterization of sound pressure fields[J]. IEEE Journal of Oceanic Engineering, 2019, 44(3):598-610
[8] ZHANG T, SHI H, CHEN L, et al. AUV positioning method based on tightly coupled SINS/LBL for underwater acoustic multipath propagation[J]. Sensors, 2016, 16(3):357
[9] MO J, DENG Z, JIA B, et al. A novel multipath mitigation method based on fast orthogonal search(FOS) for short-delay multipath with zero doppler shift difference[C]//Proceedings of 2018 China Satellite Navigation Conference, Harbin, 2018
[10] BCKLIN C L, ANDERSSON C, GUSTAFSSON M G. Self-tuning density estimation based on Bayesian averaging of adaptive kernel density estimations yields state-of-the-art performance[J]. Pattern Recognition, 2018, 78(1):133-143
[11] 王任栋, 李华, 赵凯, 等. 基于核密度估计的城市动态密集场景激光雷达定位[J]. 光学学报, 2019, 39(5):1-10 WANG Rendong, LI Hua, ZHAO Kai, et al. Robust localization based on kernel density estimation in dynamic diverse city scenes using lidar[J]. Acta Optica Sinica, 2019, 39(5):1-10(in Chinese)
[12] HONG J, FULTON M, SATTAR J. An evaluation of Bayesian methods for bathymetry-based localization of autonomous underwater robots[J/OL]. (2018-09-21)[2020-03-07].https://arxiv.org/pdf/1809.08076v1.pdf
[13] DALLA VALLE L, DE GIULI M E, TARANTOLA C, et al. Default probability estimation via pair copula constructions[J]. European Journal of Operational Research, 2016, 249(1):298-311
[14] ZHANG Y, WANG T, SHI S, et al. Broadband underwater multi-source localization with a computationally efficient coherent OMP algorithm[J]. Applied Acoustics, 2016, 113(12):70-80 |
|
|
|
|
|
|
|
