English

Provably Correct Sensor-driven Path-following for Unicycles using Monotonic Score Functions

Systems and Control 2023-03-23 v1 Robotics Systems and Control

Abstract

This paper develops a provably stable sensor-driven controller for path-following applications of robots with unicycle kinematics, one specific class of which is the wheeled mobile robot (WMR). The sensor measurement is converted to a scalar value (the score) through some mapping (the score function); the latter may be designed or learned. The score is then mapped to forward and angular velocities using a simple rule with three parameters. The key contribution is that the correctness of this controller only relies on the score function satisfying monotonicity conditions with respect to the underlying state -- local path coordinates -- instead of achieving specific values at all states. The monotonicity conditions may be checked online by moving the WMR, without state estimation, or offline using a generative model of measurements such as in a simulator. Our approach provides both the practicality of a purely measurement-based control and the correctness of state-based guarantees. We demonstrate the effectiveness of this path-following approach on both a simulated and a physical WMR that use a learned score function derived from a binary classifier trained on real depth images.

Keywords

Cite

@article{arxiv.2303.12182,
  title  = {Provably Correct Sensor-driven Path-following for Unicycles using Monotonic Score Functions},
  author = {Benton Clark and Varun Hariprasad and Hasan A. Poonawala},
  journal= {arXiv preprint arXiv:2303.12182},
  year   = {2023}
}

Comments

8 pages, 8 figures, submitted to IROS 2023

R2 v1 2026-06-28T09:27:21.258Z