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IROS
2006
IEEE

Probabilistic Search for a Moving Target in an Indoor Environment

14 years 6 months ago
Probabilistic Search for a Moving Target in an Indoor Environment
– We consider a search for a target moving within a known indoor environment partitioned into interconnected regions of varying sizes. The knowledge of target location is described as a probability distribution over the regions, and the searcher can only move from one region to another as the structure allows. The objective is to find a feasible path through the regions that maximizes the probability of locating the target within fixed time. This problem generalizes the existing optimal searcher path problem (OSP) by additionally stipulating a minimum amount of time that a finite-speed searcher must spend to travel through a region before reaching the next. We propose a technique to obtain the upper bound of detection for solving the problem in a branch and bound framework. Comparisons show that the technique is also superior to known bounding methods for the original optimal searcher path problem.
Haye Lau, Shoudong Huang, Gamini Dissanayake
Added 12 Jun 2010
Updated 12 Jun 2010
Type Conference
Year 2006
Where IROS
Authors Haye Lau, Shoudong Huang, Gamini Dissanayake
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