Maximum Likelihood Topology Maps for Wireless Sensor Networks Using an Automated Robot

Ashanie Gunathillake, A. Savkin, A. Jayasumana
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引用次数: 10

Abstract

Topology maps represent the layout arrangement of nodes while maintaining the connectivity. As it is extracted using connectivity information only, it does not accurately represent the physical layout such as physical voids, shape, and relative distances among physical positions of sensor nodes. A novel concept Maximum Likelihood-Topology Maps for Wireless Sensor Networks is presented. As it is based on a packet reception probability function, which is sensitive to the distance, it represents the physical layout more accurately. In this paper, we use a binary matrix recorded by a mobile robot representing the reception of packets from sensor nodes by the mobile robot at different locations along the robots trajectory. Maximum likelihood topology coordinates are then extracted from the binary matrix by using a packet receiving probability function. Also, the robot trajectory is automated to avoid the obstacles and cover the entire network within least possible amount of time. The result shows that our algorithm generates topology maps for various network shapes under different environmental conditions accurately, and that it outperforms the existing algorithms by representing the physical layout of the network more accurately.
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基于自动化机器人的无线传感器网络最大似然拓扑图
拓扑图在保持连接性的同时表示节点的布局安排。由于它仅使用连接信息提取,因此不能准确地表示物理布局,例如物理空隙、形状和传感器节点物理位置之间的相对距离。提出了一种新的无线传感器网络最大似然拓扑映射概念。由于它基于对距离敏感的数据包接收概率函数,因此可以更准确地表示物理布局。在本文中,我们使用移动机器人记录的二进制矩阵来表示移动机器人沿着机器人轨迹在不同位置接收来自传感器节点的数据包。然后利用包接收概率函数从二值矩阵中提取最大似然拓扑坐标。此外,机器人的轨迹是自动的,可以避开障碍物,并在最短的时间内覆盖整个网络。结果表明,我们的算法能够准确地生成不同环境条件下各种网络形状的拓扑图,并且能够更准确地表示网络的物理布局,优于现有算法。
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