Monte Carlo model and variance reduction method based on lidar of ship wake

Liang Shan-Yong; Wang Jiang-An; Zhang Feng; Wu Rong-Hua; Zong Si-Guang; Wang Yu-Hong; Wang Le-Dong

doi:10.7498/aps.62.015205

Abstract

The numerical simulation of ship wake laser scattering mechanism and the detection process are important foundations for the laser detection and guidance of the ship wake. The feasibility that Monte Carlo method is introduced into the numerical simulation of lidar of ship wake is analyzed firstly. The Monte Carlo simulation model of laser detection of ship wake is developed with the actual parameters of self-developed lidar of ship wake. The causes of the large variance and low photon utilization of simulation results are in-depth analyzed by statistics on the simulation results. To resolve this problem, the method of photon collision forced in the receive optical fields, the photon splitting method with the total free pach of photon serving as a criterion, and the conbination of the two methods are put forward based on partial sampling theory and the basic principle of division-roulette bet. The comparative analyses of the simulation and the experimental results show that the proposed model simulation results fit to experimental data better, thus the correctness of the model is verified. The photon collision forced in the receive optical field and division-the roulette method can effectively reduce the variance and increase the photon utilization. In this paper, the Monte Carlo method is introduced into the simulation process of lidar of ship wake.

Keywords:

Authors and contacts

1.
Electronic Engineering College, Naval University of Engineering, Wuhan 430033, China;
2.
China Shipbuilding Industry Group No. 717 Research Institute, Wuhan 430033, China
Funds: Project supported by the Advanced Research Program of Weapon Equipment, China (Grant No. 9140A26030110JB11) and the National Natural Science Foundation of China (Grant No. 51109217).

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Cited By

[1]	Stanic S, Caruthers J W, Goodman R R, Kennedy E, Brown R A 2009 IEEE J. Oceanic Eng. 34 83
[2]	Ulloa O, Sathyendranath S, Platt T 1994 Appl. Opt. 33 7070
[3]	Zhang X D, Lewis M, Johnson B 1998 Appl. Opt. 37 6525
[4]	Qiu H H 2003 J. Opt. Soc. Am. A 20 690
[5]	Kokhanovsky A A 2003 J. Opt. A: Pure Appl. Opt. 5 47
[6]	Hulst V 1957 Light Scattering by Small Particles (New York: Wiley) pp107-185
[7]	Geller M, Johnson G B, Yen J H, Clapp G A 1986 Proceedings of the Tactical Communication Conference Fort Wayne, USA, April 2-6, 1986 p60
[8]	He X Q, Pan D L, Bai Y, Zhu Q K, Gong F, Mao Z H 2010 Acta Opt. Sin. 30 618 (in Chinese) [何贤强, 潘德炉, 白雁, 朱乾坤, 龚芳, 毛志华 2010 光学学报 30 618]
[9]	Ding H P, Chen G, Majumdar A, Sadler B M, Xu Z Y 2009 IEEE JSAC 27 1535
[10]	Mobley C D 1994 Light and Water: Radiative Transfer in Natural Waters (Vol. 1) (New York: Academic Press) pp112-115
[11]	Cheng T H, Gu X F, Chen L F, Yu T, Tian G L 2008 Acta Phys. Sin. 57 5323 (in Chinese) [程天海, 顾行发, 陈良富, 余涛, 田国良 2008 物理学报 57 5323]
[12]	Wang L, Xu Z H, Feng H J 2005 Acta Phys. Sin. 54 2694 (in Chinese) [王凌, 徐之海, 冯华君 2005 物理学报 54 2694]
[13]	Chen W G, Huang B X 1996 Acta Electron. Sin. 24 47 (in Chinese) [陈文革, 黄本雄 1996 电子学报 24 47]
[14]	Du Z F, Huang T X, Lu Y M, Yang Z K 2003 Acta Electron. Sin. 31 1815 (in Chinese) [杜竹峰, 黄铁侠, 卢益民, 杨宗凯 2003 电子学报 31 1815]
[15]	Liang S Y, Wang J A, Zhang F, Shi S W, Ma Z G, Liu T, Wang Y H 2012 Acta Phys. Sin. 61 110701 (in Chinese) [梁善勇, 王江安, 张峰, 石晟玮, 马治国, 刘涛, 王雨虹 2012 物理学报 61 110701]
[16]	Xu L Q, Li H, Xiao Z Y 2008 Acta Phys. Sin. 57 6030 (in Chinese) [徐兰青, 李晖, 肖郑颖 2008 物理学报 57 6030]
[17]	Zhao T F, Ke X Z 2012 Acta Phys. Sin. 61 114208 (in Chinese) [赵太飞, 柯熙政 2012 物理学报 61 114208]
[18]	Shi S W, Wang J A, Jiang X Z, Ma Z G, Yu Y 2008 Acta Opt. Sin. 28 1861 (in Chinese) [石晟玮, 王江安, 蒋兴舟, 马治国, 余扬 2008 光学学报 28 1861]
[19]	Fan J J, Li J L, Cheng J P, Pei L C 2003 Sci. China E 33 452 (in Chinese) [范佳锦, 李君利, 程建平, 裴鹿成 2003 中国科学(E辑) 33 452]
[20]	Li S, Tian D F, Qeng L 2011 J. Comput. Phys. 28 323 (in Chinese) [李树, 田东风, 邓力 2011 计算物理 28 323]

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Vol. 62, Issue 1 - 2013-01-05

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