Automated Verification of Social Laws for Continuous Time Multi-Robot Systems


  • Ronen Nir Technion – Israel Institute of Technology
  • Erez Karpas Technion – Israel Institute of Technology



Designing multi-agent systems, where several agents work in a shared environment, requires coordinating between the agents so they do not interfere with each other. One of the canonical approaches to coordinating agents is enacting a social law, which applies restrictions on agents’ available actions. A good social law prevents the agents from interfering with each other, while still allowing all of them to achieve their goals. Recent work took the first step towards reasoning about social laws using automated planning and showed how to verify if a given social law is robust, that is, allows all agents to achieve their goals regardless of what the other agents do. This work relied on a classical planning formalism, which assumed actions are instantaneous and some external scheduler chooses which agent acts next. However, this work is not directly applicable to multi-robot systems, because in the real world actions take time and the agents can act concurrently. In this paper, we show how the robustness of a social law in a continuous time setting can be verified through compilation to temporal planning. We demonstrate our work both theoretically and on real robots.




How to Cite

Nir, R., & Karpas, E. (2019). Automated Verification of Social Laws for Continuous Time Multi-Robot Systems. Proceedings of the AAAI Conference on Artificial Intelligence, 33(01), 7683-7690.



AAAI Technical Track: Planning, Routing, and Scheduling