Perception-Driven Sparse Graphs for Optimal Motion Planning

Author(s)

Unknown author

Abstract

© 2018 IEEE. Most existing motion planning algorithms assume that a map (of some quality) is fully determined prior to generating a motion plan. In many emerging applications of robotics, e.g., fast-moving agile aerial robots with constrained embedded computational platforms and visual sensors, dense maps of the world are not immediately available, and they are computationally expensive to construct. We propose a new algorithm for generating plan graphs which couples the perception and motion planning processes for computational efficiency. In a nutshell, the proposed algorithm iteratively switches between the planning sub-problem and the mapping sub-problem, each updating based on the other until a valid trajectory is found. The resulting trajectory retains a provable property of providing an optimal trajectory with respect to the full (unmapped) environment, while utilizing only a fraction of the sensing data in computational experiments.

Date issued

2018-10

URI

https://hdl.handle.net/1721.1/137843

Publisher

Institute of Electrical and Electronics Engineers (IEEE)

Citation

2018. "Perception-Driven Sparse Graphs for Optimal Motion Planning."

Version: Original manuscript