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Enhanced Tracking of Airborne Targets Using Forward Looking Infrared and LaserReturn Measurements

机译：利用前视红外和激光回波测量增强对机载目标的跟踪

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The Air Force Institute of Technology has been involved in developing Kalmanfilter based trackers of ballistic missiles for 15 years. The goal of this thesis is to develop a Multiple Model Adaptive Estimator (MMAE) that tracks the missile plume (using a forward looking infrared sensor) and the missile hardbody center-of-mass (additionally using low energy laser returns) for the purpose of directing a high power laser to incapacitate the missile. The missile plume 'pogos' about an offset equilibrium point (relative to the hardbody center-of-mass) with an amplitude and frequency of oscillation that are not precisely known a priori. The MMAE algorithm estimates these parameters to improve performance in tracking the hardbody center-of-mass. To accomplish this MMAE structure, single Kalman filters were developed and tested at the different parameter values. A Kalman filter residual analysis was used on these working single filters to define the MMAE structure that provided the most effective adaptation and most accurate target tracking. A three-filter MMAE structure gave the lowest hardbody center-of-mass tracking errors. The two-dimensional parameter space, pogo amplitude and frequency, was successfully partitioned according to the frequency of oscillation. When the plume pogo amplitude is large, the MMAE structure substantially reduces the tracking errors of the hardbody center-of-mass, compared to a tracker without adaptive pogo estimation. Kalman filter, Tracking, Infrared, Doppler, Laser.

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作者
Grondin, P. J.;
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年度 1993
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总页数 441
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Forward looking infrared systems; Tracking; Infrared lasers; Adaptation; Air force; Algorithms; Amplitude; Ballistics; Errors; Estimates; Frequency; Guided missiles; High power; Laser applications; Low energy; Mass; Models; Oscillation; Parameters; Plumes;

机译：前视红外系统;跟踪;红外激光;适应;空军;算法;振幅;弹道;误差;估计;频率;导弹;高功率;激光应用;低能量;质量;模型;振荡;参数;羽流;

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1. Target tracking in airborne forward looking infrared imagery [J] . Alper Yilmaz, Khurram Shafique, Mubarak Shah Image and Vision Computing . 2003,第7期

机译：机载前视红外图像中的目标跟踪
2. Decoupled Unbiased Converted Measurements Adaptive Gating CPHD Filter for Airborne Multi-target Tracking [J] . Yuhao Deng, Panlong Wu, Xingxiu Li, Journal of Aeronautics Astronautics and Aviation . 2017,第2期

机译：机载多目标跟踪的解耦无偏转换测量自适应门控CPHD滤波器
3. Decoupled Unbiased Converted Measurements Adaptive Gating CPHD Filter for Airborne Multi-target Tracking [J] . Yuhao Deng, Panlong Wu, Xingxiu Li, Journal of Aeronautics, Astronautics and Aviation, A . 2017,第2期

机译：解耦的无偏见转换测量自适应门控CPHD滤波器用于机载多目标跟踪
4. Target Tracking, Moving Target Detection, Stabilisation and Enhancement of Airborne Video [C] . J. Dale, D. Scott, D. Dwyer, Airborne Intelligence, Surveillance, Reconnaissance(ISR) Systems and Applications II . 2005

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5. Pattern recognition and tracking in forward-looking infrared imagery using correlation filters. [D] . Bhuiyan, Sharif Md. Ataullah. 2004

机译：使用相关滤镜在前瞻性红外图像中进行模式识别和跟踪。
6. A New Maritime Moving Target Detection and Tracking Method for Airborne Forward-looking Scanning Radar [O] . Weibo Huo, Jifang Pei, Yulin Huang, 2019

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7. Airborne Infrared Target Tracking with the Nintendo Wii Remote Sensor [O] . Beckett Andrew 1984- 2013

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Enhanced Tracking of Airborne Targets Using Forward Looking Infrared and LaserReturn Measurements

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