Publication

Mobile robot exploration with potential information fields

Conference Article

Conference

European Conference on Mobile Robots (ECMR)

Edition

6th

Pages

222-227

Doc link

http://dx.doi.org/10.1109/ECMR.2013.6698846

File

Download the digital copy of the doc pdf document

Abstract

We present a mobile robot exploration strategy that computes trajectories that minimize both path and map entropies. The method evaluates joint entropy reduction and computes a potential field in robot configuration space using these joint entropy reduction estimates. The exploration trajectory is computed descending on the gradient of these field. The technique uses Pose SLAM as its estimation backbone. Very efficient kernel convolution mechanisms are used to evaluate entropy reduction for each sensor ray, and for each possible robot orientation, taking frontiers and obstacles into account. In the end, the computation of this field on the entire C-space is shown to be very efficient computationally. The approach is tested in simulations in a common publicly available dataset comparing favorably both in quality of estimates and execution time against another entropy reduction strategy that uses occupancy maps.

Categories

robots.

Scientific reference

J. Vallvé and J. Andrade-Cetto. Mobile robot exploration with potential information fields, 6th European Conference on Mobile Robots, 2013, Barcelona, pp. 222-227.