Application of Computational Geometry in Coal Mine Roadway 3D Localization

Application of Computational Geometry in Coal

Mine Roadway 3D Localization

Feng Wang1, Lei Shi1, Weiguo Fan2, and Cong Wang1

1College of Information Engineering, Taiyuan University of Technology, China

2Department of Computer Science, Virginia Polytechnic Institute and State University, China

Abstract: The Voronoi diagram principle in the computational geometry was researched and the relationship between the anchor nodes and Voronoi diagram was analyzed in this paper. A new arrangement method of coal mine roadway nodes was proposed to construct the Voronoi diagram of the roadway on the basis of new node arrangement method and increase numerous virtual anchor nodes for the roadway space under the condition of no increase of network cost and increase the number of anchor nodes communicating with the sensor nodes. Through the combination with the range-free DV-Hop algorithm, the scheme of coal mine roadway localization was proposed to finally achieve the localization of underground roadway. The simulation results show that, compared to the traditional range-free algorithm, the algorithm in this paper can more accurately estimate the location of the nodes under the same network condition. The increase of the positioning accuracy of the algorithm can suit the node localization of underground wireless sensor network in coal mine.

Keywords: Wireless sensor network, roadway; voronoi diagra, virtual anchor node.

Received August 25, 2015; accepted February 11, 2016

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