Risk-Aware Real-Time Task Allocation for Stochastic Multi-Agent Systems under STL Specifications
This paper addresses the control synthesis of heterogeneous stochastic linear multi-agent systems with real-time allocation of signal temporal logic (STL) specifications. Based on previous work, we decompose specifications into sub-specifications on the individual agent level. To leverage the efficiency of task allocation, a heuristic filter evaluates potential task allocation based on STL robustness. Subsequently, an auctioning algorithm determines the definite allocation of specifications. Finally, a control strategy is synthesized for each agent-specification pair using tube-based Model Predictive Control (MPC), ensuring provable probabilistic satisfaction. We demonstrate the efficacy of the proposed methods using a multi-bus scenario that highlights a promising extension to autonomous driving applications like crossing an intersection.
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