Analysis of Impact of the Former Running Noise on Active Acoustic Homing Detection of the Latter during Two Torpedoes Salvo and Countermeasures

DENG Xin-wen; XIE Yong

doi:10.11993/j.issn.2096-3920.202202001

Volume 30 Issue 4

Sep 2022

Turn off MathJax

Article Contents

Article Navigation > Journal of Unmanned Undersea Systems > 2022 > 30(4): 519-522

DENG Xin-wen, XIE Yong. Analysis of Impact of the Former Running Noise on Active Acoustic Homing Detection of the Latter during Two Torpedoes Salvo and Countermeasures[J]. Journal of Unmanned Undersea Systems, 2022, 30(4): 519-522. doi: 10.11993/j.issn.2096-3920.202202001

Citation:

DENG Xin-wen, XIE Yong. Analysis of Impact of the Former Running Noise on Active Acoustic Homing Detection of the Latter during Two Torpedoes Salvo and Countermeasures[J]. Journal of Unmanned Undersea Systems, 2022, 30(4): 519-522. doi: 10.11993/j.issn.2096-3920.202202001

Citation:

PDF( 1022 KB)

Analysis of Impact of the Former Running Noise on Active Acoustic Homing Detection of the Latter during Two Torpedoes Salvo and Countermeasures

doi: 10.11993/j.issn.2096-3920.202202001

91388^th Unit, The People’s Liberation Army of China, Zhanjiang 524022, China

Received Date: 2022-02-08
Rev Recd Date: 2022-03-31

Available Online: 2022-09-06

Abstract

Abstract

In anti-submarine warfare, the salvo of two active acoustic homing torpedoes is the main torpedo attack method for submarines, which can expand the search area of the torpedoes and cover a larger target scattering zone. Based on analyzing the methods of salvo of two active acoustic homing torpedoes, the organization and implementation of parallel salvo, and the impact mechanism of the former torpedo’s running noise on active acoustic homing detection of the latter, a model to describe the impact of the former torpedo’s running noise on the latter’s active acoustic homing acquisition range is developed. According to the results of a numerical example, the former torpedo’s running noise has a significant impact on the active acoustic homing acquisition range of the latter torpedo; the impact differs from the interval between the salvo of the torpedoes. Finally, suggestions are provided on how to reduce the impact of the former torpedo’s running noise in actual operation.
- torpedo,
- salvo,
- running noise,
- active acoustic homing,
- homing acquisition range

FullText(HTML)

References(14)

References

[1]	李勐. 被动声自导鱼雷齐射及射击组织[J]. 鱼雷技术, 2015, 23(6): 461-464. Li Meng. Firing Organization and Salvo of Passive Acoustic Homing Torpedoes[J]. Torpedo Technology, 2015, 23(6): 461-464.
[2]	蒋帅, 樊书宏, 郝保安. 基于分数阶傅里叶变换的双雷齐射主动自导方法[J]. 水下无人系统学报, 2020, 28(6): 677-684. Jiang Shuai, Fan Shu-hong, Hao Bao-an. Two-Torpedo Salvo Active Homing Method Based on Fractional Fourier TransForm[J]. Journal of Unamnned Undersea Systems, 2020, 28(6): 677-684.
[3]	杨俊. 基于平行航向的声自导鱼雷齐射研究[J]. 四川兵工学报, 2015, 36(4): 19-21. Yang Jun. Study on Acoustic Homing Torpedo Salvo Based on Parallel Course[J]. Journal of Sichuan Ordnance, 2015, 36(4): 19-21.
[4]	明星, 陈喜, 蒋兴舟. 双雷齐射互导概率及目标捕获概率研究[J]. 鱼雷技术, 2006, 14(4): 52-55. Ming Xing, Chen Xi, Jiang Xing-zhou. Probability Calculation of Mutual-guiding and Target Acquisition under Two Torpedoes Salvo[J]. Torpedo Technoogy, 2006, 14(4): 52-55.
[5]	张静远, 王鹏. 声自导鱼雷双雷齐射有关技术与战术问题分析[J]. 鱼雷技术, 2013, 21(4): 299-305. Zhang Jing-yuan, Wang Peng. Technical and Tactical Analysis of Two-Torpedo Salvo for Acoustic Homing Torpedo[J]. Torpedo Technology, 2013, 21(4): 299-305.
[6]	宗方勇, 王树宗, 杨立强. 潜射反潜自导鱼雷平行航向齐射遮盖目标散布研究[J]. 兵工学报, 2007, 28(6): 706-708. doi: 10.3321/j.issn:1000-1093.2007.06.013 Zong Fang-yong, Wang Shu-zong, Yang Li-qiang. Study on Salvo Submarine Launched Anti-submarine Homing Torpedoes for Obscuring Target Scatterance[J]. Acta Armamentarii, 2007, 28(6): 706-708. doi: 10.3321/j.issn:1000-1093.2007.06.013
[7]	雷震撼, 袁富宇. 声自导鱼雷平行齐射发现概率解析计算模型[J]. 指挥控制与仿真, 2014, 36(3): 58-60. doi: 10.3969/j.issn.1673-3819.2014.03.013 Lei Zhen-han, Yuan Fu-yu. Analytic Method for Computing Finding Probability of Salvo of Two Acoustic Homing Torpedoes[J]. Command Control& Simulation, 2014, 36(3): 58-60. doi: 10.3969/j.issn.1673-3819.2014.03.013
[8]	夏志军, 章新华, 许林周. 潜艇平行航向齐射两枚鱼雷时相对目标方位开角研究[J]. 兵工学报, 2012, 33(5): 636-640. Xia Zhi-jun, Zhang Xin-hua, Xu Lin-zhou. Study on Orientation Angle of Two Acoustic Homing Torpedoes Relative to Target with Parallel Salvo Launched by Submarine[J]. Acta Armamentarii, 2012, 33(5): 636-640.
[9]	杨俊. 基于潜艇的声自导鱼雷双雷齐射研究[J]. 兵工自动化, 2013, 32(9): 17-22. doi: 10.7690/bgzdh.2013.09.005 Yang Jun. Research on Salvo Fire of Two Acoustic Homing Torpedoes Based on Submarine[J]. Ordnance Industry Automation, 2013, 32(9): 17-22. doi: 10.7690/bgzdh.2013.09.005
[10]	贺成刚, 唐世轩, 邓南明. 两雷齐射试验及评定分析[J]. 鱼雷技术, 2010, 18(6): 466-469. He Cheng-gang, Tang Shi-xuan, Deng Nan-ming. Analysis of Salvo Test and Evaluation for Two Torpedoes[J]. Torpedo Technology, 2010, 18(6): 466-469.
[11]	邓新文, 朱文振, 谢勇. 潜艇转向旋回防御主动声自导鱼雷的战术意义与作战运用[J]. 水下无人系统学报, 2019, 27(1): 65-69. Deng Xin-wen, Zhu Wen-zhen, Xie Yong. Tactical Significance and Operational of Submarine Steering Cycle to Defense Active Acoustic Homing Torpedo[J]. Journal of Unmanned Undersea Systems, 2019, 27(1): 65-69.
[12]	Waite A D. Sonar for Practising Engineers[M]. New York: John Wiley & Sons, 2002.
[13]	刘鹏, 蒋贤芬, 曾宪清. 计算机仿真中鱼雷指向性图波束拟合[J]. 舰船电子工程, 2008, 28(12): 65-69. doi: 10.3969/j.issn.1627-9730.2008.12.018 Liu Peng, Jiang Xian-fen, Zeng Xian-qing. Torpedo Directivity Figure Beam Fitting in Computer Simulation[J]. Ship Electronic Engineering, 2008, 28(12): 65-69. doi: 10.3969/j.issn.1627-9730.2008.12.018
[14]	孟庆玉, 张静远, 宋保维. 鱼雷作战效能分析[M]. 北京: 国防工业出版社, 2003.