English

Minimum-Violation Planning for Autonomous Systems: Theoretical and Practical Considerations

Robotics 2020-09-28 v1

Abstract

This paper considers the problem of computing an optimal trajectory for an autonomous system that is subject to a set of potentially conflicting rules. First, we introduce the concept of prioritized safety specifications, where each rule is expressed as a temporal logic formula with its associated weight and priority. The optimality is defined based on the violation of such prioritized safety specifications. We then introduce a class of temporal logic formulas called si-FLTLGX\textrm{si-FLTL}_{\mathsf{G_X}} and develop an efficient, incremental sampling-based approach to solve this minimum-violation planning problem with guarantees on asymptotic optimality. We illustrate the application of the proposed approach in autonomous vehicles, showing that si-FLTLGX\textrm{si-FLTL}_{\mathsf{G_X}} formulas are sufficiently expressive to describe many traffic rules. Finally, we discuss practical considerations and present simulation results for a vehicle overtaking scenario.

Keywords

Cite

@article{arxiv.2009.11954,
  title  = {Minimum-Violation Planning for Autonomous Systems: Theoretical and Practical Considerations},
  author = {Tichakorn Wongpiromsarn and Konstantin Slutsky and Emilio Frazzoli and Ufuk Topcu},
  journal= {arXiv preprint arXiv:2009.11954},
  year   = {2020}
}
R2 v1 2026-06-23T18:46:50.753Z