Title :
Computing C-space entropy for view planning based on beam sensor model
Author :
Wang, Pengpeng ; Gupta, Kamal
Author_Institution :
Sch. of Eng. Sci., Simon Fraser Univ., Burnaby, BC, Canada
Abstract :
The concept of C-space entropy was recently introduced by the authors (2000, 2001), as a measure of knowledge of C-space for sensor-based path planning and exploration for general robot-sensor systems. The robot plans the next sensing action to maximally reduce the expected C-space entropy, also called the maximal expected entropy reduction, or MER criterion. The expected C-space entropy computation, however, made two idealized assumptions. The first was that the sensor field of view (FOV) is a point; and the second was that no visibility (or occlusion) constraints are taken into account, i.e., as if the obstacles are transparent. We extend the expected C-space entropy formulation where the sensor FOV is a beam and furthermore, it is subject to visibility constraints, as is the case with real range sensors. Planar simulations show that this new formulation results in more efficient exploration.
Keywords :
entropy; path planning; robots; C-space entropy; MER criterion; beam sensor model; expected C-space entropy computation; expected C-space entropy reduction; maximal expected entropy reduction; occlusions; path planning; planar simulations; sensor-based exploration; sensor-based path planning; view planning; visibility constraints; Computational geometry; Entropy; Humanoid robots; Manipulators; Mobile robots; Orbital robotics; Path planning; Robot sensing systems; Sensor systems; Zinc compounds;
Conference_Titel :
Intelligent Robots and Systems, 2002. IEEE/RSJ International Conference on
Print_ISBN :
0-7803-7398-7
DOI :
10.1109/IRDS.2002.1041625
