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2016 | OriginalPaper | Chapter

Safe Motion Planning for Imprecise Robotic Manipulators by Minimizing Probability of Collision

Authors : Wen Sun, Luis G. Torres, Jur van den Berg, Ron Alterovitz

Published in: Robotics Research

Publisher: Springer International Publishing

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Abstract

Robotic manipulators designed for home assistance and new surgical procedures often have significant uncertainty in their actuation due to compliance requirements, cost constraints, and size limits. We introduce a new integrated motion planning and control algorithm for robotic manipulators that makes safety a priority by explicitly considering the probability of unwanted collisions. We first present a fast method for estimating the probability of collision of a motion plan for a robotic manipulator under the assumptions of Gaussian motion and sensing uncertainty. Our approach quickly computes distances to obstacles in the workspace and appropriately transforms this information into the configuration space using a Newton method to estimate the most relevant collision points in configuration space. We then present a sampling-based motion planner based on executing multiple independent rapidly exploring random trees that returns a plan that, under reasonable assumptions, asymptotically converges to a plan that minimizes the estimated collision probability. We demonstrate the speed and safety of our plans in simulation for (1) a 3-D manipulator with 6 DOF, and (2) a concentric tube robot, a tentacle-like robot designed for surgical applications.

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previous chapter Fast Marching Trees: A Fast Marching Sampling-Based Method for Optimal Motion Planning in Many Dimensions

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Title: Safe Motion Planning for Imprecise Robotic Manipulators by Minimizing Probability of Collision
Authors: Wen Sun
Luis G. Torres
Jur van den Berg
Ron Alterovitz
Publisher: Springer International Publishing
Book: Robotics Research
Print ISBN: 978-3-319-28870-3

Electronic ISBN: 978-3-319-28872-7

Copyright Year: 2016
DOI: https://doi.org/10.1007/978-3-319-28872-7_39

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