Continuous Reachability Task Transition Using Control Barrier Functions
Abstract
In this paper, a method to achieve smooth transitions between sequential reachability tasks for a continuous time mobile robotic system is presented. Control barrier functions provide formal guarantees of forward invariance of safe sets and finite-time reachability and are able to enforce task execution. Barrier functions used in quadratic programs result in implementation of controllers with real-time performance guarantees. Existing approaches for multi-objective task execution using control barrier functions leverage discretely switched, sequential quadratic programs to achieve successive tasks. However, discrete switching can lead to control input discontinuities which can affect a robot's performance. Hence, we propose a method which ensures continuous transitions between sequential quadratic programs. In particular, a time varying component to the barrier function constraint is introduced which allows for a smooth transition between objectives. Robotic implementation results are also provided.
Cite
@article{arxiv.2005.12407,
title = {Continuous Reachability Task Transition Using Control Barrier Functions},
author = {Mohit Srinivasan and Cesar Santoyo and Samuel Coogan},
journal= {arXiv preprint arXiv:2005.12407},
year = {2020}
}
Comments
To appear in the 21st IFAC World Congress, 2020