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Discrete-Time Position Tracking Control for Multimotor Driving Systems via Multipower Terminal Sliding-Mode Technique

Xiang Wang, Baofang Wang, Xinkai Chen, Jinpeng Yu

2023IEEE/ASME Transactions on Mechatronics24 citationsDOI

Abstract

With the popularization of computerized digital control systems, the discrete-time control design has attracted increasing attention. This article presents a novel discrete-time second-order multipower terminal sliding-mode control (DSMTSC) for the position tracking of multimotor driving servo systems. Instead of the traditional dynamic model, a discrete-time characteristic model, which possesses lower order and fewer parameters, is built based on the system input–output data. In the DSMTSC design, a multipower sliding function is constructed fitting different convergence stages, which achieves faster convergence rate and higher tracking precision than conventional terminal sliding functions. Furthermore, an improved reaching law is designed to avoid the integral saturation, and the high-order sliding-mode approach is utilized to reduce the chattering. The finite-step boundedness of both the sliding functions and the tracking error is proved by rigorous theoretical analysis. Comparative experiments are conducted on a four-motor driving servo turntable, and the results verify the advantages of the DSMTSC, which are particularly suitable for practical application.

Topics & Concepts

Control theory (sociology)Terminal sliding modeSliding mode controlServoPosition (finance)ServomechanismConvergence (economics)Computer scienceDiscrete time and continuous timeServo bandwidthTracking (education)Tracking errorMode (computer interface)Control engineeringEngineeringServo controlMathematicsNonlinear systemControl (management)Artificial intelligenceStatisticsPsychologyOperating systemPedagogyEconomicsEconomic growthPhysicsFinanceQuantum mechanicsAdaptive Control of Nonlinear SystemsControl Systems in EngineeringIterative Learning Control Systems
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