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Deep-Learning-Based Identification of LPV Models for Nonlinear Systems

Chris Verhoek, Gerben I. Beintema, Sofie Haesaert, Maarten Schoukens, Roland Tóth

20222022 IEEE 61st Conference on Decision and Control (CDC)15 citationsDOIOpen Access PDF

Abstract

The Linear Parameter-Varying (LPV) framework provides a modeling and control design toolchain to address nonlinear (NL) system behavior via linear surrogate models. Despite major research effort on LPV data-driven modeling, a key shortcoming of the current identification theory is that often the scheduling variable is assumed to be a given measured signal in the data set. In case of identifying an LPV model of a NL system, the selection of the scheduling map, which describes the relation to the measurable scheduling signal, is put on the users’ shoulder, with only limited supporting tools available. This choice however greatly affects the usability and complexity of the resulting LPV model. This paper presents a deep-learning-based approach to provide joint estimation of a scheduling map and an LPV state-space model of a NL system from input-output data, and has consistency guarantees under general innovation-type noise conditions. Its efficiency is demonstrated on a realistic identification problem.

Topics & Concepts

Computer scienceScheduling (production processes)ToolchainUsabilityNonlinear systemSystem identificationLinear systemRobustness (evolution)Data modelingArtificial intelligenceMathematical optimizationMathematicsChemistryQuantum mechanicsDatabaseSoftwareGenePhysicsHuman–computer interactionBiochemistryMathematical analysisProgramming languageControl Systems and IdentificationFault Detection and Control SystemsAdvanced Control Systems Optimization
Deep-Learning-Based Identification of LPV Models for Nonlinear Systems | Litcius