通过他们的影子找到人:利用从地面视频中提取的人体生物识别技术进行空中监视

Y. Iwashita, A. Stoica, R. Kurazume
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引用次数: 5

摘要

阴影分析已被证明能够将步态生物识别技术扩展到空中监视。在过去的工作中,分类器都是对图像处理提取的阴影特征进行训练和测试的。在真实场景中,这需要识别带有人物阴影的图像。另一方面,人们很少能获得被搜查人的影子信息,然而,直接的身体运动/信息可能更容易从地面监视摄像机或录像中获得。本文提出了一种从地面视频中获取人体运动的步态/动力学特征,并在空中监控视频中搜索阴影匹配动力学的方案。一种常见的情况是,地面/城市监控摄像机对人们进行记录,并利用信息对空中平台的阴影进行大范围搜索。反之亦然,嫌疑人离开事件区域的影子,如果被空中监控检测到,就可以触发城市/地面监控摄像头观察到的全市范围内的身体/步态生物识别搜索。为了说明该方法的可行性,本文介绍了一种方法,该方法比较地面图像帧中的身体轮廓和航空图像帧中的阴影轮廓,对其进行对齐并计算距离,并在标准化的步态周期中进行集成。虽然结果是初步的,但只有5个人,并且使用特定的行走安排来避免视角变化的补偿,该方法获得了70%的正确分类率,这是证明该方法可行性的第一步。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Finding People by their Shadows: Aerial Surveillance Using Body Biometrics Extracted from Ground Video
Shadow analysis has been shown to enable the extension of gait biometrics to aerial surveillance. In past work the classifiers were both trained and tested on shadow features extracted by image processing. In real scenarios this requires imagery with shadows of people to be recognized. On the other hand one rarely has available the shadow information of the person sought, however direct body movement/information may be more easily obtained from ground surveillance cameras or video recordings. This paper proposes a scenario in which gait/dynamics features from body movement are obtained from a ground video and the search for matching dynamics of shadows takes place in aerial surveillance video. A common scenario would be the recording of people by ground/city surveillance cameras and the use of information to initiate a wide-area search for shadows from aerial platforms. Vice-versa, the shadow of a suspect leaving an incident area, detected by aerial surveillance, can trigger a city-wide search on body/gait biometrics as observed with city/ground surveillance cameras. To illustrate the feasibility of this approach the paper introduces a method that compares contours of bodies in ground image frames and contours of shadows in aerial image frames, for which an alignment is made and a distance is calculated, integrated over a normalized gait cycle. While the results are preliminary, for only 5 people, and using a specific walking arrangement to avoid compensation for changes in the viewing angles, the method obtains a 70% correct classification rate which is a first step in proving the feasibility of the approach.
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