Sensor-Based Reactive Navigation in Unknown Convex Sphere Worlds
Embargo Date
Degree type
Discipline
Subject
Kodlab
Electrical and Computer Engineering
Engineering
Systems Engineering
Funder
Grant number
License
Copyright date
Distributor
Related resources
Contributor
Abstract
We construct a sensor-based feedback law that provably solves the real-time collision-free robot navigation problem in a compact convex Euclidean subset cluttered with unknown but sufficiently separated and strongly convex obstacles. Our algorithm introduces a novel use of separating hyperplanes for identifying the robot’s local obstacle-free convex neighborhood, affording a reactive (online-computed) piecewise smooth and continuous closed-loop vector field whose smooth flow brings almost all configurations in the robot’s free space to a designated goal location, with the guarantee of no collisions along the way. We further extend these provable properties to practically motivated limited range sensing models.
Advisor
Date of presentation
Conference name
Conference dates
Conference location
Date Range for Data Collection (Start Date)
Date Range for Data Collection (End Date)
Digital Object Identifier
Series name and number
Volume number
Issue number
Publisher
Publisher DOI
Comments
Note: This paper was nominated for the Best Paper Award at the 12th International Workshop on the Algorithmic Foundations of Robotics in 2016.