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利用极大似然法统计回波信号实现光束闭环瞄准实验研究 被引量:3

Maximum-Likelihood Estimation of Laser Pointing Errors Using Return Photons
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摘要 瞄准偏差和光束抖动是光束瞄准系统中的两个最重要的误差。对以高斯光束和高斯抖动为基础的光束瞄准目标时产生的光回波信号进行数学建模;结合极大似然估计算法理论,建立并完善了基于回波信号的光束瞄准误差估计模型;并编写程序实现了Monte Carlo模型仿真,搭建了实验室平台。仿真和实验结果表明,极大似然估计算法表现出了优良的性能,能够同时准确地估计出瞄准偏差和光束抖动,信号样本越大其估计精度越高,且实验结果和仿真结果吻合得很好。在此基础上,根据实时偏差估计实现了实验室光束闭环瞄准实验。 Boresight and jitter are two fundamental pointing errors for a laser pointing system.With the theory of maximum-likelihood estimation,a laser pointing system model is setup and consummated based on a Gaussian far-field irradiance profile and a Gaussian beam jitter model.The estimates are gained by use of return photon counts reflected from an intended target.Then,a Monte Carlo simulation is programmed and a laboratory experiment is performed.Both the simulations and experimental results demonstrate that the performance of the maximum-likelihood estimator is excellent and improves with the increasing number of shots.With this method,the boresight and jitter can be obtained simultaneously.What′s more,the further study finds that the experimental results agree well with the simulation results.Based on these excellent performances of the estimator,a closed-loop laser pointing experiment is exhibited in laboratory.
作者 周磊 任戈 谭毅 李志俊
机构地区 中国科学院光电技术研究所 中国科学院光束控制重点实验室 中国科学院研究生院
出处 《中国激光》 EI CAS CSCD 北大核心 2012年第3期183-189,共7页 Chinese Journal of Lasers
基金 国家863计划(2008AA8200590)资助课题
关键词 大气光学 光束瞄准系统 瞄准偏差 光束抖动 极大似然估计 回波信号 atmospheric optics laser pointing system boresight jitter maximum-likelihood estimate return photon counts
分类号 TN012 [电子电信—物理电子学]
  • 相关文献

参考文献15

  • 1杨世骥,何志平,贾建军,吴金才,王建宇.湍流大气信道激光透射率的研究[J].中国激光,2010,37(11):2860-2863. 被引量:6
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二级参考文献42

共引文献83

同被引文献36

  • 1王肖飞,伊红晶,钱龙生.半导体激光器温度控制系统的设计[J].长春理工大学学报(自然科学版),2005,28(1):20-22. 被引量:8
  • 2G. Lukesh, S. Chandler, D. G. Voelz. Estimation of laser system pointing performance by use of statistics of return photons [J]. Appl. Opt., 2000, 39(9): 1359-1371.
  • 3S. M. Chandler, G. W. Lukesh, D. Voelz et al.. Model-based beam control for illumination of remote objects, part I: theory and near real-time feasibility [C]. SPIE, 2004, 5552: 105-113.
  • 4S. Basu, D. Voelz, S. M. Chandler et al.. Model-based beam control for illumination of remote objects, part II: laboratory testbed [C]. SPIE, 2004, 5552: 114-122.
  • 5Suan Chandler, Gordon Lukesh. An introduction to RHINO-real-time histogram interpretation of numerical observations [C]. SPIE, 2006, 6160: 61600M1.
  • 6D. Borah, D. Voelz, S. Basu. Maximum likelihood estimation of laser system pointing parameters using return photon counts [J]. Appl. Opt., 2006, 45(11): 2504-2509.
  • 7Lei Zhou, Yi Tan, Ge Ren. One new quality of the maximum-likelihood estimation of laser pointing system by use of return photon counts [C]. SPIE, 2010, 7843: 78430K1.
  • 8A. Erteza. Boresighting a Gaussian beam on a specular target point: a method using conical scan[J]. Appl. Opt., 1976, 15(3): 656-660.
  • 9Santasri Basu, Dvid Voelz, Susan Chandler et al.. Adaptive beam control based on return statistic: laboratory real-time simulation [C]. SPIE, 2005, 5895: 58950M1.
  • 10P. S .Neelakantaswarmy, A. Rajaratram. Boresight error in the conical scan method of auto-boresighting a laser beam on a specular point-target[J]. Appl. Opt., 1982, 21(19): 3607-3612.

引证文献3

二级引证文献14

中国激光
2012年 第3期

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