This paper studies a detection method of targets of high resolution radar operating at the band of millimeter-wave(32-38GHz) under the background of the clutters, and proposes a new nonparametric detection method, whi...This paper studies a detection method of targets of high resolution radar operating at the band of millimeter-wave(32-38GHz) under the background of the clutters, and proposes a new nonparametric detection method, which not only does less computation, but also is able to detect multiple extended targets radially distributed along distance "corridor", based on the position (range) correlation information of one-dimensional range images(or called range profiles) of high resolution radar targets. The experimental results, on the real echo data of tank illuminated by the millimeter-wave stepped frequency high resolution radar, have certified that such a method presented in this paper is a very effective detection method for multiple extended targets.展开更多
A multichannel noncoherent integration detection method based on high range resolution profile was presented in this paper.According to the property of the moment-generating function,the distribution characteristics o...A multichannel noncoherent integration detection method based on high range resolution profile was presented in this paper.According to the property of the moment-generating function,the distribution characteristics of the noncoherent integrated signals with or without target presence were derived under the circumstance with noncorrelated Gaussian distribution noises.The loss of noncoherent integration was due to improper selection of integration range of cell numbers.A multichannel noncoherent integration detection scheme where the integration number in each channel varies was proposed to solve this problem.The quality of this method for detection of various targets was evaluated.A comparison of fixed integration range cell number detection and multichannel integration detection for a high range resolution profile was presented.Simulation results indicated that the principle of the method was correct and performed well for unknown physical dimension targets.The method required little prior knowledge about target and was convenient for practical implementation.展开更多
为提高高精度道路地图的制作效率,提出采用融合多源数据的方式构建高精度地图。根据道路特征及类型,选用车载激光雷达(Light Detection and Ranging,LiDAR)、无人机摄影测量以及人工采集3种技术获取数据源,分别进行点云、图像以及矢量...为提高高精度道路地图的制作效率,提出采用融合多源数据的方式构建高精度地图。根据道路特征及类型,选用车载激光雷达(Light Detection and Ranging,LiDAR)、无人机摄影测量以及人工采集3种技术获取数据源,分别进行点云、图像以及矢量数据处理,构建高精度道路地图并进行精度评定。试验结果表明,多源数据可实现不同道路场景下的数据采集,为高精度地图快速构建和更新提供参考。展开更多
To obtain the radar High Range Resolution (HRR) profile of the slowly moving ground target in strong clutter background, the Phase-Coded Hopped-Frequency (PCHF) waveform is proposed. By multiple-bursts coherent proces...To obtain the radar High Range Resolution (HRR) profile of the slowly moving ground target in strong clutter background, the Phase-Coded Hopped-Frequency (PCHF) waveform is proposed. By multiple-bursts coherent processing, the HRR profile synthesis, target velocity compensation and clutter compression can be accomplished simultaneously. The new waveform is shown to have good ability to suppress ground clutter and good Electronic Counter-CounterMeasures (ECCM) ability as well. The clutter compression performance of the proposed method is verified by the numerical results.展开更多
文摘This paper studies a detection method of targets of high resolution radar operating at the band of millimeter-wave(32-38GHz) under the background of the clutters, and proposes a new nonparametric detection method, which not only does less computation, but also is able to detect multiple extended targets radially distributed along distance "corridor", based on the position (range) correlation information of one-dimensional range images(or called range profiles) of high resolution radar targets. The experimental results, on the real echo data of tank illuminated by the millimeter-wave stepped frequency high resolution radar, have certified that such a method presented in this paper is a very effective detection method for multiple extended targets.
基金Supported by the Advanced Research Foundation of General Armament Department(51307020101)
文摘A multichannel noncoherent integration detection method based on high range resolution profile was presented in this paper.According to the property of the moment-generating function,the distribution characteristics of the noncoherent integrated signals with or without target presence were derived under the circumstance with noncorrelated Gaussian distribution noises.The loss of noncoherent integration was due to improper selection of integration range of cell numbers.A multichannel noncoherent integration detection scheme where the integration number in each channel varies was proposed to solve this problem.The quality of this method for detection of various targets was evaluated.A comparison of fixed integration range cell number detection and multichannel integration detection for a high range resolution profile was presented.Simulation results indicated that the principle of the method was correct and performed well for unknown physical dimension targets.The method required little prior knowledge about target and was convenient for practical implementation.
文摘为提高高精度道路地图的制作效率,提出采用融合多源数据的方式构建高精度地图。根据道路特征及类型,选用车载激光雷达(Light Detection and Ranging,LiDAR)、无人机摄影测量以及人工采集3种技术获取数据源,分别进行点云、图像以及矢量数据处理,构建高精度道路地图并进行精度评定。试验结果表明,多源数据可实现不同道路场景下的数据采集,为高精度地图快速构建和更新提供参考。
基金Supported by the National Natural Science Foundation of China (No.60302009).
文摘To obtain the radar High Range Resolution (HRR) profile of the slowly moving ground target in strong clutter background, the Phase-Coded Hopped-Frequency (PCHF) waveform is proposed. By multiple-bursts coherent processing, the HRR profile synthesis, target velocity compensation and clutter compression can be accomplished simultaneously. The new waveform is shown to have good ability to suppress ground clutter and good Electronic Counter-CounterMeasures (ECCM) ability as well. The clutter compression performance of the proposed method is verified by the numerical results.