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第 44 卷 第 1 期             刘与涵等: 深海移动水平阵声源被动定位方法研究进展                                           49


                 Chen Ying, Ye Qinghua, Huang Haining. A fast imag-  [37] Lingren A G, Gong K F. Position and velocity esti-
                 ing algorithm using multistage-focusing beamforming[J].  mation via bearing observations[J]. IEEE Transactions
                 Applied Acoustics, 2008, 27(3): 207–211.          on Aerospace and Electronic Systems, 1978, AES-14(4):
             [26] 时洁, 杨德森, 刘伯胜. 基于虚拟时间反转镜的噪声源近场定                   564–577.
                 位方法研究 [J]. 兵工学报, 2008, 29(10): 1215–1219.      [38] Aidala V J, Nardone S C. Biased estimation properties
                 Shi Jie, Yang Desen, Liu Bosheng. Radiated noise sources  of the pseudolinear tracking filter[J]. IEEE Transactions
                 near-field location based on virtual time reversal mirror[J].  on Aerospace and Electronic Systems, 1982, AES-18(4):
                 Acta Armamentarii, 2008, 29(10): 1215–1219.       432–441.
             [27] Niu F, Hui J, Cui H C, et al. Researches on 3D pas-  [39] Weiss H, Moore J. Improved extended Kalman filter de-
                 sive positioning in near field using focused beam form-  sign for passive tracking[J]. IEEE Transactions on Auto-
                 ing[C]//Proceedings 2013 International Conference on  matic Control, 1980, 25(4): 807–811.
                 Mechatronic Sciences, Electric Engineering and Computer  [40] Aidala V J. Kalman filter behavior in bearings-only track-
                 (MEC). December 20–22, 2013. Shenyang, China. IEEE,  ing applications[J]. IEEE Transactions on Aerospace and
                 2013: 1302–1305.                                  Electronic Systems, 1979, AES-15(1): 29–39.
             [28] 梁国龙, 韩博, 孙向前. 多途条件下近场声源三维被动定位 [J].
                                                                [41] Hoelzer H D, Johnson G W, Cohen A O. Modified po-
                 兵工学报, 2014, 35(3): 326–332.                       lar coordinates—The key to well behaved bearings only
                 Liang Guolong, Han Bo, Sun Xiangqian.  Three-
                                                                   ranging: IBM IR&D Report 78-M19-0001A[R]. Manas-
                 dimensional passive localization of near-field source in
                                                                   sas, Virginia: IBM Federal Systems Division, Shipboard
                 a multipath environment[J]. Acta Armamentarii, 2014,
                                                                   and Defense Systems, 1978.
                 35(3): 326–332.
                                                                [42] Zhan R H, Wan J W. Iterated unscented Kalman fil-
             [29] 薛山花, 叶青华, 黄海宁, 等. 利用近场 MVDR 双聚焦波束成
                                                                   ter for passive target tracking[J]. IEEE Transactions
                 形方法实现被动测距 [J]. 应用声学, 2005, 24(3): 177–181.
                                                                   on Aerospace and Electronic Systems, 2007, 43(3):
                 Xue Shanhua, Ye Qinghua, Huang Haining, et al. Passive-
                                                                   1155–1163.
                 range estimation using near-field MVDR dual focused
                                                                [44] 赵建昕, 笪良龙, 徐国军, 等. 线性等式约束下的纯方位目标
                 beamformers[J]. Applied Acoustics, 2005, 24(3): 177–181.
                                                                   运动分析 [J]. 应用声学, 2014, 33(2): 120–129.
             [30] 周伟, 梅继丹, 惠俊英, 等. 聚焦波束形成的一阶零点约束
                                                                   Zhao Jianxin, Da Lianglong, Xu Guojun, et al. Bearings-
                 权 [J]. 华中科技大学学报 (自然科学版), 2010, 38(5): 45–48.
                                                                   only target motion analysis with linear equality con-
                 Zhou Wei, Mei Jidan, Hui Junying, et al. One order null
                                                                   straints[J]. Journal of Applied Acoustics, 2014, 33(2):
                 constrained weight of focused beamforming[J]. Journal of
                                                                   120–129.
                 Huazhong University of Science and Technology (Natural
                                                                [45] 赵建昕, 过武宏, 笪良龙, 等. 基于纯方位的浅海距离特征量
                 Science Edition), 2010, 38(5): 45–48.
                                                                   解算分析 [J]. 应用声学, 2015, 34(4): 320–332.
             [31] Sun D J, Ma C, Mei J D, et al. Improving the resolution
                                                                   Zhao Jianxin, Guo Wuhong, Da Lianglong, et al. Anal-
                 of underwater acoustic image measurement by deconvolu-
                                                                   ysis of distance characteristic variable solved based on
                 tion[J]. Applied Acoustics, 2020, 165: 107292.
                                                                   bearings-only in shallow sea[J]. Journal of Applied Acous-
             [32] Nardone S, Lindgren A, Gong K. Fundamental proper-
                                                                   tics, 2015, 34(4): 320–332.
                 ties and performance of conventional bearings-only target
                                                                [46] 徐鹏, 郭良浩, 闫超, 等. 基于波导不变性的修正纯方位卡尔
                 motion analysis[J]. IEEE Transactions on Automatic Con-
                                                                   曼滤波方法 [J]. 声学技术, 2015, 34(6): 255–258.
                 trol, 1984, 29(9): 775–787.
                                                                   Xu Peng, Guo Lianghao, Yan Chao, et al.  Modified
             [33] Nardone S C, Aidala V J. Observability criteria for
                 bearings-only target motion analysis[J]. IEEE Transac-  bearings-only Kalman filter methods based on waveg-
                 tions on Aerospace and Electronic Systems, 1981, AES-  uide invariant theory[J]. Technical Acoustics, 2015, 34(6):
                 17(2): 162–166.                                   255–258.
                                                                [47] 董阁, 曹政, 郭良浩, 等. 利用频域 β-warping 变换的浅海
             [34] Jauffret C, Pillon D. Observability in passive target mo-
                 tion analysis[J]. IEEE Transactions on Aerospace and  修正纯方位目标运动分析方法 [J]. 声学学报, 2019, 44(4):
                 Electronic Systems, 1996, 32(4): 1290–1300.       513–522.
             [35] Fawcett J A. Effect of course maneuvers on bearings-  Dong Ge, Cao Zheng, Guo Lianghao, et al.  A modi-
                 only range estimation[J]. IEEE Transactions on Acoustics,  fied bearings-only target motion analysis method based on
                 Speech, and Signal Processing, 1988, 36(8): 1193–1199.  frequency β-warping transform in shallow water[J]. Acta
             [36] 董阁, 郭良浩, 徐鹏, 等. 利用信号自相关函数 warping 变换             Acustica, 2019, 44(4): 513–522.
                 的浅海水下移动观测平台机动优化方法 [J]. 声学学报, 2020,             [48] Chan Y T, Rudnicki S W. Bearings-only and Doppler-
                 45(6): 811–823.                                   bearing tracking using instrumental variables[J]. IEEE
                 Dong Ge, Guo Lianghao, Xu Peng, et al. Optimal mobile  Transactions on Aerospace and Electronic Systems, 1992,
                 observation platform maneuver based on warping trans-  28(4): 1076–1083.
                 form of signal autocorrelation function in shallow water[J].  [49] Rao S K, Jagan B O L. Passive target tracking in un-
                 Acta Acustica, 2020, 45(6): 811–823.              derwater environment using bearing and frequency mea-
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