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Robust Constrained Predictive Fault-Tolerant Control With Generalized Input Parameterization and Event-Triggered Regulation: Design and Experimental Results

Kezhen Han, Jian Feng, Qing Zhao, Ping Jiang, Xiaohong Wang

2020IEEE Transactions on Industrial Electronics17 citationsDOI

Abstract

This article proposes some new improvements to the traditional constrained predictive fault-tolerant control (FTC) method by enlarging the maximal fault-tolerant admissible region and reducing the online computational complexity. In general, the generalized parameterization of predictive input and event-triggered predictive regulation are integrated into a framework of fault compensation-based dual-mode tube predictive FTC. This predictive FTC scheme has three notable characteristics: 1) The dual-mode FTC consisting of fixed-mode fault compensation and freely predictive adjustments allows most of the calculations to be predetermined offline, while only a simple optimization problem requires to be solved online; 2) the fault-tolerant ability is enhanced by utilizing generalized parameterization of predictive inputs to enlarge the region of attraction of a faulty system; 3) the real-time computational effort of predictive FTC is further reduced by constructing an event-triggered condition to avoid unnecessary online predictive optimization. A case study of a practical synchronous dc-dc Buck converter is given to validate the effectiveness of the proposed predictive FTC method.

Topics & Concepts

Model predictive controlControl theory (sociology)Computer scienceCompensation (psychology)Fault (geology)Fault toleranceDual (grammatical number)Event (particle physics)Control (management)Artificial intelligenceDistributed computingGeologyArtPsychoanalysisPsychologyLiteraturePhysicsSeismologyQuantum mechanicsFault Detection and Control SystemsAdvanced Control Systems OptimizationAdvanced Battery Technologies Research
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