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Self-stabilizing economic model predictive control without pre-calculated steady-state optima: Stability and robustness

Kuan‐Han Lin, Lorenz T. Biegler

2023Computers & Chemical Engineering15 citationsDOIOpen Access PDF

Abstract

We propose a new economic nonlinear model predictive control (eNMPC) formulation that tracks the optimality conditions of the real-time optimization problem rather than any specific steady states. The proposed formulation maintains its nature of optimizing economic performance and assured stability properties with the Lyapunov inequality constraint for the closed-loop control. Under general assumptions, we prove that the proposed controller is asymptotically stable without process disturbances and is input-to-state stable when there is a process disturbance. The proposed eNMPC is demonstrated on two case studies and compared against setpoint-tracking NMPC with setpoints determined by the steady-state real-time optimizer to show improved dynamic performance. We also highlight the capability of self-stabilization of the new eNMPC with parameter updates in the process model.

Topics & Concepts

SetpointControl theory (sociology)Model predictive controlRobustness (evolution)Nonlinear systemSteady state (chemistry)Stability (learning theory)Lyapunov functionMathematicsComputer scienceMathematical optimizationControl (management)ChemistryGeneBiochemistryPhysical chemistryArtificial intelligenceQuantum mechanicsMachine learningPhysicsAdvanced Control Systems OptimizationProcess Optimization and IntegrationFault Detection and Control Systems