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Monte Carlo Simulation and Analysis of Round-Trip Turbulence Effects on Ladar for Unresolved Target Detection

机译：蒙特卡罗模拟与分析无人值守目标检测的牵引迂回湍流效应

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The effects of round-trip atmospheric turbulence on ladar are being investigated using a Monte Carlo code with many phase-screens to simulate atmospheric turbulence effects. These phase-screens are located along the outward path of the laser-mode and the inward path of the backscattered laser speckle pattern. The targets used are variable in size and smaller than the propagated laser-mode transverse dimension and are therefore termed 'unresolved'. In this paper previous round-trip turbulence analyses and data are reviewed, and the current Monte Carlo simulation code is discussed. Simulation results to date are presented indicating that intensity fluctuations or 'scintillation' is best described by a new two-parameter K-distribution probability density function. This intensity distribution may then be used in deriving a ladar receiver-operating-characteristic for determining the target detection probability including round-trip turbulence.

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作者
Youmans, D. G. ; Gudimetla, V. S.;
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年度 1997
页码 1-15
总页数 15
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Turbulence; Lasers; Monte carlo method; Target detection; Optical radar; Simulation; Distribution; Probability; Intensity; Backscattering; Laser beams; Variations; Coding; Scintillation; Specular reflection;

机译：湍流;激光;蒙特卡罗方法;目标检测;光学雷达;模拟;分布;概率;强度;后向散射;激光束;变化;编码;闪烁;镜面反射;

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Monte Carlo Simulation and Analysis of Round-Trip Turbulence Effects on Ladar for Unresolved Target Detection

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