Litcius/Paper detail

Soft‐constrained model predictive control based on <scp>data‐driven</scp> distributionally robust optimization

Shuwen Lu, Jay H. Lee, Fengqi You

2020AIChE Journal41 citationsDOI

Abstract

Abstract This article proposes a novel distributionally robust optimization (DRO)‐based soft‐constrained model predictive control (MPC) framework to explicitly hedge against unknown external input terms in a linear state‐space system. Without a priori knowledge of the exact uncertainty distribution, this framework works with a lifted ambiguity set constructed using machine learning to incorporate the first‐order moment information. By adopting a linear performance measure and considering input and state constraints robustly with respect to a lifted support set, the DRO‐based MPC is reformulated as a robust optimization problem. The constraints are softened to ensure recursive feasibility. Theoretical results on optimality, feasibility, and stability are further discussed. Performance and computational efficiency of the proposed method are illustrated through motion control and building energy control systems, showing 18.3% less cost and 78.8% less constraint violations, respectively, while requiring one third of the CPU time compared to multi‐stage scenario based stochastic MPC.

Topics & Concepts

Model predictive controlRobust optimizationMathematical optimizationConstraint (computer-aided design)Computer scienceAmbiguityMoment (physics)Stability (learning theory)Robust controlA priori and a posterioriSet (abstract data type)Stochastic optimizationOptimization problemControl theory (sociology)Control (management)MathematicsControl systemEngineeringArtificial intelligenceMachine learningElectrical engineeringClassical mechanicsPhilosophyGeometryProgramming languagePhysicsEpistemologyAdvanced Control Systems OptimizationProcess Optimization and IntegrationFault Detection and Control Systems