Predictable mobility

Author(s)

Ishigami, Genya; Kewlani, Gaurav; Iagnemma, Karl

Abstract

In this article, a statistical mobility prediction for planetary surface exploration rovers has been described. This method explicitly considers uncertainty of the terrain physical parameters via SRSM and employs models of both vehicle dynamics and wheel-terrain interaction mechanics. The simulation results of mobility prediction using three different techniques, SMC, LHSMC, and SRSM, confirms that SRSM significantly improves the computational efficiency compared with those conventional methods. The usefulness and validity of the proposed method has been confirmed through experimental studies of the slope traversal scenario in two different terrains. The results show that the predicted motion path with confidence ellipses can be used as a probabilistic reachability metric of the rover position. Also, for the slope-traversal case, terrain parameter uncertainty has a larger influence on the lateral motion of the rover than on longitudinal motion. Future directions of this study will apply the proposed technique to the path-planning problem. Here, confidence ellipses will be used to define collision-free areas, which will provide useful criteria for generating safe trajectories.

Date issued

2009-12

URI

http://hdl.handle.net/1721.1/61335

Department

Massachusetts Institute of Technology. Department of Mechanical Engineering
Massachusetts Institute of Technology. Laboratory for Manufacturing and Productivity

Journal

IEEE Robotics & Automation Magazine

Publisher

Institute of Electrical and Electronics Engineers

Citation

Ishigami, G., G. Kewlani, and K. Iagnemma. “Predictable mobility.” Robotics & Automation Magazine, IEEE 16.4 (2009): 61-70. ©2009 IEEE.

Version: Final published version

Other identifiers

INSPEC Accession Number: 11019893

ISSN

1070-9932