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Distributed Model Predictive Control for Tracking: A Coalitional Clustering Approach

Paula Chanfreut, J. M. Maestre, Antonio Ferramosca, Francisco Javier Muros, Eduardo F. Camacho

2021IEEE Transactions on Automatic Control21 citationsDOIOpen Access PDF

Abstract

In this article, a coalitional robust model predictive controller for tracking target sets is presented. The overall system is controlled by a set of local control agents that dynamically merge into cooperative coalitions or clusters so as to attain an efficient tradeoff between cooperation burden and global performance optimality. Within each cluster, the agents coordinate their inputs to maximize their collective performance, while considering the coupling effect with external subsystems as uncertainty. By using a tube-based approach, the overall system state is driven to the target sets while satisfying state and input constraints despite the changes in the controllers’ clustering. Likewise, feasibility and stability of the closed-loop system are guaranteed by tracking techniques. The applicability of the proposed approach is illustrated by an academic example.

Topics & Concepts

Cluster analysisComputer scienceMerge (version control)Control theory (sociology)Model predictive controlStability (learning theory)Robustness (evolution)Mathematical optimizationControl (management)Artificial intelligenceMathematicsMachine learningGeneChemistryInformation retrievalBiochemistryAdvanced Control Systems OptimizationFault Detection and Control SystemsDistributed Control Multi-Agent Systems