Advanced model-based control strategies,e.g.,model predictive control,can offer superior control of key process variables for multiple-input multiple-output sys-tems.The quality of the system model is critical to controller performance and should adequately describe the process dynamics across its operating range while remaining amenable to fast optimization.This work articulates an integrated system identification procedure for deriving black-box nonlinear continuous-time multi-pie-input multiple-output system models for nonlinear model predictive control.To showcase this approach,five candidate models for polynomial and interaction features of both output and manipulated variables were trained on simulated data and integrated into a nonlinear model predictive controller for a highly nonlinear continuous stirred tank reactor system.This procedure successfully identified system models that enabled effective control in both servo and regulator problems across wider operating ranges.These controllers also had reasonable per-iteration times of ca.0.1 s.This demonstration of how such system models could be identified for nonlinear model predictive control without prior knowledge of system dynamics opens further possibilities for direct data-driven methodol-ogies for model-based control which,in the face of process uncertainties or modelling limitations,allow rapid and stable control over wider operating ranges.

Ewan Chee;Wee Chin Wong;Xiaonan Wang

Department of Chemical & Biomolecular Engineering,Faculty of Engineering,National University of Singapore,Singapore 117585,Singapore;Chemical Engineering & Food Technology Cluster,Singapore Institute of Technology,Singapore 138683,Singapore

化学科学与工程前沿

[1]Ewan Chee;Wee Chin Wong;Xiaonan Wang-.An integrated approach for machine-learning-based system identification of dynamical systems under control:application towards the model predictive control of a highly nonlinear reactor system)[J].化学科学与工程前沿,2022(02):237-250

articulates,methodol,ogies

An,integrated,approach,machine,learning,identification,dynamical,systems,under,application,towards,predictive,highly,nonlinear,reactor,Advanced,strategies,offer,superior,key,process,variables,multiple,input,output,quality,critical,performance,should,adequately,describe,dynamics,across,its,operating,while,remaining,amenable,fast,optimization,This,work,procedure,deriving,black,box,continuous,pie,models,To,showcase,this,five,candidate,polynomial,interaction,features,both,manipulated,were,trained,simulated,data,into,stirred,tank,successfully,identified,that,enabled,effective,servo,regulator,problems,wider,ranges,These,controllers,also,had,reasonable,iteration,times,demonstration,such,could,without,prior,knowledge,opens,further,possibilities,direct,driven,which,face,uncertainties,modelling,limitations,allow,rapid,stable,over

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