Litcius/Paper detail

Conic Iterative Learning Control Using Distinct Data for Constrained Systems With State-Dependent Uncertainty

Yuanqiang Zhou, Dewei Li, Furong Gao

2021IEEE Transactions on Industrial Informatics21 citationsDOI

Abstract

In batch processes, the ability to learn from previous process data results in high-value and batch-improved products. For batch processes with constraints and state-dependent uncertainty, this article presents a conic iterative learning control (ILC) approach, which uses cone theory to incorporate historical process data into optimization-based ILC design. The proposed conic ILC approach uses rank conditioning to select distinct data samples and conic mapping to map the data to the to-be-optimized control input variables, since adding all historical process data would be computationally intensive. Our method yields a tradeoff between learning ability from historical experience and computational efficiency from solving the optimization problem. Provable constraint satisfaction and robust stability are considered separately. To demonstrate the proven properties and effectiveness of the approach, we present a case study of the injection molding process.

Topics & Concepts

Iterative learning controlConic sectionMathematical optimizationComputer scienceProcess (computing)Constraint (computer-aided design)State (computer science)Rank (graph theory)Stability (learning theory)Artificial intelligenceControl theory (sociology)Machine learningControl (management)AlgorithmMathematicsCombinatoricsOperating systemGeometryIterative Learning Control SystemsAdvanced Control Systems OptimizationAdvanced machining processes and optimization