Real-time motion planning and decision-making for a group of differential drive robots under connectivity constraints using robust MPC and mixed-integer programming

Real-time motion planning and decision-making for a group of differential drive robots under connectivity constraints using robust MPC and mixed-integer programming

This work is concerned with the problem of planning trajectories and assigning tasks for a Multi-Agent System (MAS) comprised of differential drive robots. We propose a multirate hierarchical control structure that employs a planner based on robust Model Predictive Control (MPC) with mixed-integer p...

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Hauptverfasser: Caregnato-Neto, Angelo, Maximo, Marcos R. O. A., Afonso, Rubens J. M.
Format: Video
Sprache:eng
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Biological Sciences not elsewhere classified
Computational Biology
FOS: Biological sciences
FOS: Computer and information sciences
FOS: Health sciences
FOS: Mathematics
Infectious Diseases
Information Systems not elsewhere classified
Mathematical Sciences not elsewhere classified
Physiology
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Zusammenfassung:This work is concerned with the problem of planning trajectories and assigning tasks for a Multi-Agent System (MAS) comprised of differential drive robots. We propose a multirate hierarchical control structure that employs a planner based on robust Model Predictive Control (MPC) with mixed-integer programming (MIP) encoding. The planner computes trajectories and assigns tasks for each element of the group in real-time, while also guaranteeing the communication network of the MAS to be robustly connected at all times. Additionally, we provide a data-based methodology to estimate the disturbances sets required by the robust MPC formulation. The results are demonstrated with experiments in two obstacle-filled scenarios.
DOI:10.6084/m9.figshare.20992440