Seamless fusion of GPS-VT service from outdoor to indoor cameras

2011 3rd International Conference on Awareness Science and Technology (iCAST) Pub Date : 2011-09-01 DOI:10.1109/ICAWST.2011.6163145

Hsien-Chou Liao, Ching-Min Lai

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引用次数: 4

Abstract

Cameras and surveillance systems are widely installed at streets, communities, schools, buildings and so on. In our previous results, the global positioning system (GPS) was incorporated with the visual tracking technique, called GPS-VT. A person can be located and tracking according his GPS coordinate in the outdoor environment. However, GPS-VT service is unavailable when the person walks in an indoor environment. Therefore, the purpose of this study is to provide a seamless fusion of GPS-VT service for persons from the outdoor to indoor environment. In order to achieve the above purpose, template matching, shadow removal, and collision resolution techniques are used for the tracking among multiple cameras in the indoor environment. Besides, the elapsed time of a person leaving the field-of-views (FOV) of one camera and entering the FOV of another is not a fixed value. An automatic estimation mechanism is designed and a normal distribution function is used to estimate an acceptable interval of the elapsed time. Such a mechanism is performed for any two successive cameras. Besides, a prototype was implemented to demonstrate that the GPS-VT service is extended from outdoor to indoor environment with multiple cameras.

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从室外到室内摄像头的GPS-VT服务无缝融合

摄像头和监控系统广泛安装在街道、社区、学校、建筑物等。在我们之前的研究结果中，全球定位系统(GPS)与视觉跟踪技术相结合，称为GPS- vt。在室外环境中，可以根据GPS坐标对人进行定位和跟踪。然而，当人在室内环境中行走时，GPS-VT服务不可用。因此，本研究的目的是为人们提供从室外到室内环境的GPS-VT服务的无缝融合。为了达到上述目的，采用模板匹配、阴影去除、碰撞分辨等技术进行室内环境下多摄像机之间的跟踪。此外，一个人从一台摄像机的视场进入另一台摄像机的视场所经过的时间并不是一个固定值。设计了一种自动估计机制，并使用正态分布函数估计可接受的运行时间间隔。这种机制可用于任意两个连续的摄像机。并通过样机验证了GPS-VT服务在多摄像机环境下从室外扩展到室内的可行性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2011 3rd International Conference on Awareness Science and Technology (iCAST)

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