English

Automatic Trajectory Synthesis for Real-Time Temporal Logic

Systems and Control 2020-09-15 v1 Formal Languages and Automata Theory Robotics Systems and Control

Abstract

Many safety-critical systems must achieve high-level task specifications with guaranteed safety and correctness. Much recent progress towards this goal has been made through controller synthesis from temporal logic specifications. Existing approaches, however, have been limited to relatively short and simple specifications. Furthermore, existing methods either consider some prior discretization of the state-space, deal only with a convex fragment of temporal logic, or are not provably complete. We propose a scalable, provably complete algorithm that synthesizes continuous trajectories to satisfy non-convex \gls*{rtl} specifications. We separate discrete task planning and continuous motion planning on-the-fly and harness highly efficient boolean satisfiability (SAT) and \gls*{lp} solvers to find dynamically feasible trajectories that satisfy non-convex \gls*{rtl} specifications for high dimensional systems. The proposed design algorithms are proven sound and complete, and simulation results demonstrate our approach's scalability.

Keywords

Cite

@article{arxiv.2009.06436,
  title  = {Automatic Trajectory Synthesis for Real-Time Temporal Logic},
  author = {Rafael Rodrigues da Silva and Vince Kurtz and Hai Lin},
  journal= {arXiv preprint arXiv:2009.06436},
  year   = {2020}
}

Comments

Submitted to Transactions on Automatic Control

R2 v1 2026-06-23T18:31:28.849Z