Robotics: Science and Systems V
Non-parametric learning to aid path planning over slopes
S. Karumanchi, T. Allen, T. Bailey and S. SchedingAbstract:
This paper addresses the problem of closing the loop from perception to action selection for unmanned ground vehicles, with a focus on navigating slopes. A new non-parametric learning technique is presented to generate a mobility representation where maximum feasible speed is used as a criterion to classify the world. The inputs to the algorithm are terrain gradients derived from an elevation map and past observations of wheel slip. It is argued that such a representation can aid in path planning with improved selection of vehicle heading and operating velocity in off-road slopes. Results of mobility map generation and its benefits to path planning are shown.
Bibtex:
@INPROCEEDINGS{ Karumanchi-RSS-09, AUTHOR = {S. Karumanchi AND T. Allen AND T. Bailey AND S. Scheding}, TITLE = {Non-parametric learning to aid path planning over slopes}, BOOKTITLE = {Proceedings of Robotics: Science and Systems}, YEAR = {2009}, ADDRESS = {Seattle, USA}, MONTH = {June}, DOI = {10.15607/RSS.2009.V.028} }