Model and Placement Optimization of a Sky Surveillance Visual Sensor Network

2011 International Conference on Broadband and Wireless Computing, Communication and Applications Pub Date : 2011-10-26 DOI:10.1109/BWCCA.2011.56

Naeem Ahmad, N. Lawal, M. O’nils, B. Oelmann, Muhammad Imran, Khursheed Khursheed

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引用次数: 12

Abstract

Visual Sensor Networks (VSNs) are networks which generate two dimensional data. The major difference between VSN and ordinary sensor network is the large amount of data. In VSN, a large number of camera nodes form a distributed system which can be deployed in many potential applications. In this paper we present a model of the physical parameters of a visual sensor network to track large birds, such as Golden Eagle, in the sky. The developed model is used to optimize the placement of the camera nodes in the VSN. A camera node is modeled as a function of its field of view, which is derived by the combination of the lens focal length and camera sensor. From the field of view and resolution of the sensor, a model for full coverage between two altitude limits has been developed. We show that the model can be used to minimize the number of sensor nodes for any given camera sensor, by exploring the focal lengths that both give full coverage and meet the minimum object size requirement. For the case of large bird surveillance we achieve 100% coverage for relevant altitudes using 20 camera nodes per km2 for the investigated camera sensors.

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天空监视视觉传感器网络模型与布局优化

视觉传感器网络(VSNs)是一种生成二维数据的网络。VSN与普通传感器网络的主要区别在于数据量大。在VSN中，大量的摄像机节点组成了一个分布式系统，可以部署在许多潜在的应用中。本文提出了一种用于跟踪天空中大型鸟类(如金鹰)的视觉传感器网络的物理参数模型。该模型用于优化摄像机节点在VSN中的位置。将摄像机节点建模为其视场的函数，视场由镜头焦距和摄像机传感器共同导出。从传感器的视场和分辨率出发，建立了两个高度限之间的全覆盖模型。我们表明，该模型可以通过探索既能提供全覆盖又能满足最小物体尺寸要求的焦距，来最小化任何给定相机传感器的传感器节点数量。对于大型鸟类监测，我们使用每平方公里20个相机节点为所调查的相机传感器实现了相关高度100%的覆盖率。

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 International Conference on Broadband and Wireless Computing, Communication and Applications

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