Page 56 - 《应用声学》2025年第1期
P. 56

52                                                                                   2025 年 1 月


                 close range propagation[J]. Chinese Physics Letters, 2016,  ocean bottom bounce area[J]. Acta Physica Sinica, 2022,
                 33(10): 104302.                                   71(18): 184301.
             [101] Yang K D, Duan R, Ma Y L. Narrowband source local-  [112] 徐嘉璘, 郭良浩, 闫超. 利用深海海底声反射区频域干涉结构
                 isation in the deep ocean using a near-surface array[J].  的声源深度估计方法 [J]. 声学学报, 2023, 48(3): 425–436.
                 Acoustics Australia, 2014, 42(1): 36–42.          Xu Jialin, Guo Lianghao, Yan Chao. Source depth esti-
             [102] Qi Y B, Zhou S H, Liu C P, et al. Separability of mul-  mation using frequency domain interference structure in
                 tipath arrivals by conventional beamforming and its use  deep ocean bottom bounce area[J]. Acta Acustica, 2023,
                 for source localization[C]//2022 5th International Confer-  48(3): 425–436.
                 ence on Information Communication and Signal Process-  [113] 吴俊楠. 深海水平阵接收声信号场特征研究及其应用 [D]. 北
                 ing (ICICSP). November 26–28, 2022. Shenzhen, China.  京: 中国科学院大学, 2017.
                 IEEE, 2022: 611–616.                          [114] Zhu Q X, Sun C. Underwater source localisation utilis-
             [103] Song Q Y, Ma X C. High-resolution time delay estimation  ing interference pattern under low SNR conditions[J]. IET
                 algorithms through cross-correlation post-processing[J].  Radar, Sonar & Navigation, 2023, 17(5): 876–887.
                 IEEE Signal Processing Letters, 2021, 28: 479–483.  [115] 刘与涵, 郭良浩, 章伟裕, 等. 深海声影区时频谱干涉结构与
             [104] 刘与涵, 董金鑫, 郭良浩, 等. 深海声影区稀疏时延估计与声                 声源定位 [J]. 应用声学, 2024, 43(1): 12–23.
                 源测距 [J]. 声学学报, 2022, 47(4): 417–431.              Liu Yuhan, Guo Lianghao, Zhang Weiyu, et al. Interfer-
                 Liu Yuhan, Dong Jinxin, Guo Lianghao, et al. Sparse time  ence patterns and source localization in the shadow zone of
                 delay estimation and source ranging in sound shadow zone  deep water[J]. Journal of Applied Acoustics, 2024, 43(1):
                 of deep water[J]. Acta Acustica, 2022, 47(4): 417–431.  12–23.
             [105] 徐嘉璘, 郭良浩, 任云. 深海海底声反射区多途时延差分析与              [116] 朱方伟, 郑广赢, 刘福臣. 基于深海海底反射区匹配到达结构
                 近海面声源定位 [J]. 声学学报, 2023, 48(4): 618–631.          的声源深度估计方法 [J]. 哈尔滨工程大学学报, 2021, 42(10):
                 Xu Jialin, Guo Lianghao, Ren Yun. Analysis of multipath  1510–1517.
                 time delay difference in deep ocean bottom bounce area  Zhu Fangwei, Zheng Guangying, Liu Fuchen. Matched
                 and its application in near-surface target location[J]. Acta  arrival pattern-based method for estimating source depth
                 Acustica, 2023, 48(4): 618–631.                   in deep sea bottom bounce areas[J]. Journal of Harbin
             [106] 刘与涵. 深海垂直小孔径基阵声源定位方法研究 [D]. 北京:                 Engineering University, 2021, 42(10): 1510–1517.
                 中国科学院大学, 2023.                                [117] Hale F E. Long-range sound propagation in the deep
             [107] 谢其宸, 迟骋, 张博, 等. 利用海底反射时延结构的深海海                  ocean[J]. The Journal of the Acoustical Society of Amer-
                 底反射区目标距离深度估计方法 [J]. 声学学报, 2024, 49(4):            ica, 1961, 33(4): 456–464.
                 627–635.                                      [118] Urick R J. Caustics and convergence zones in deep-water
                 Xie Qichen, Chi Cheng, Zhang Bo, et al. A range and  sound transmission[J]. The Journal of the Acoustical So-
                 depth estimation method using the time delay structure  ciety of America, 1965, 38(2): 348–358.
                 of bottom reflection in deep sea bottom bounce area[J].  [119] 张海刚, 马志康, 付金山, 等. 会聚区的水平偏移特性及其临
                 Acta Acustica, 2024, 49(4): 627–635.              界频率分析 [J]. 声学学报, 2021, 46(6): 1093–1101.
             [108] 吴俊楠, 周士弘, 张岩. 利用深海海底反射声场特征的水面声                  Zhang Haigang, Ma Zhikang, Fu Jinshan, et al. Analysis
                 源被动测距 [J]. 中国科学: 物理学 力学 天文学, 2016, 46(9):         of horizontal migration characteristics of convergence zone
                 82–88.                                            and its critical frequency[J]. Acta Acustica, 2021, 46(6):
                 Wu Junnan, Zhou Shihong, Zhang Yan. Passive ranging  1093–1101.
                 of surface source using bottom bounced sound in deep wa-  [121] 杨刚, 韩树平, 黄锐. 深海会聚区目标强度特性分析 [J]. 舰船
                 ter[J]. Scientia Sinica (Physica, Mechanica & Astronom-  科学技术, 2016, 38(23): 131–134.
                 ica), 2016, 46(9): 82–88.                         Yang Gang, Han Shuping, Huang Rui. Analysis of the
             [109] 翁晋宝, 杨燕明. 深海中利用单水听器的影区声源无源测距测                   target sound intensity characteristic in the deep ocean[J].
                 深方法 [J]. 声学学报, 2018, 43(6): 905–914.              Ship Science and Technology, 2016, 38(23): 131–134.
                 Weng Jinbao, Yang Yanming.  A passive source range  [122] 吴亮, 阮航, 韩晶, 等. 深海中声信号会聚区传播特征仿真研
                 and depth estimation method by single hydrophone in  究 [J]. 舰船科学技术, 2021, 43(23): 151–154.
                 shadow zone of deep water[J]. Acta Acustica, 2018, 43(6):  Wu Liang, Ruan Hang, Han Jing, et al. Simulation study
                 905–914.                                          on propagation characteristics of acoustic signal conver-
             [110] Weng J B, Yang Y M. Experimental demonstration of  gence area in deep sea[J]. Ship Science and Technology,
                 shadow zone localization using deep water interference  2021, 43(23): 151–154.
                 patterns measured by a single hydrophone[J]. IEEE Jour-  [123] 李倩倩, 李整林, 张仁和. 利用波导不变性解释深海中的干涉
                 nal of Oceanic Engineering, 2018, 43(4): 1171–1178.  现象 [J]. 声学技术, 2011, 30(3): 13–15.
             [111] 朱启轩, 孙超, 刘雄厚. 利用海底弹射区角度 -距离干涉结构特                Li Qianqian, Li Zhenglin, Zhang Renhe. Application of
                 征实现声源深度估计 [J]. 物理学报, 2022, 71(18): 184301.        waveguide invariant theory to analysis of interference phe-
                 Zhu Qixuan, Sun Chao, Liu Xionghou. Source depth es-  nomena in deep water[J]. Technical Acoustics, 2011, 30(3):
                 timation using angle-range interference pattern in deep  13–15.
   51   52   53   54   55   56   57   58   59   60   61