Title :
Optimizing pyramid visibiliy coverage for autonomous robots in 3D environment
Author :
Wuyi Yu ; Maoqing Li ; Xin Li
Abstract :
This paper studies the optimal visibility coverage for autonomous robots in complex 3D environments. The perception sensor equipped on an inspection robot usually has a pyramid shaped visible range with limited distance and angle. Finding the optimal pyramid visibility coverage for a given 3D region is NP hard; this paper presents an effective progressive integer linear programming algorithm to compute an approximate solution. Our framework allows the user to specify a coverage rate parameter to balance the percentage of visibility and the required guarding points for the given region. The algorithm is assessed in a simulated 3D pipeline environment and demonstrated promising for detecting leaks, clogs, and deformation of the pipes.
Keywords :
deformation; industrial robots; inspection; integer programming; leak detection; linear programming; mobile robots; pipes; 3D region; NP hard; approximate solution; autonomous robots; clogs; complex 3D environments; coverage rate parameter; inspection robot; leak detection; optimal pyramid visibility coverage; perception sensor; pipe deformation; progressive integer linear programming algorithm; pyramid shaped visible range; simulated 3D pipeline environment; Cameras; Computational modeling; Inspection; Programming; Robot vision systems; 3D Region Guarding; Visibility Coverage;
Conference_Titel :
Computer Science & Education (ICCSE), 2013 8th International Conference on
Conference_Location :
Colombo
Print_ISBN :
978-1-4673-4464-7
DOI :
10.1109/ICCSE.2013.6554064
