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Unified Model Solving Nine Types of Time-Varying Problems in the Frame of Zeroing Neural Network

Jian Li, Yang Shi, Hejun Xuan

2020IEEE Transactions on Neural Networks and Learning Systems41 citationsDOI

Abstract

Many time-varying problems have been solved using the zeroing neural network proposed by Zhang et al. In this article, nine types of time-varying problems, namely time-varying nonlinear equation system, time-varying linear equation system, time-varying convex nonlinear optimization under linear equalities, unconstrained time-varying convex nonlinear optimization, time-varying convex quadratic programming under linear equalities, unconstrained time-varying convex quadratic programming, time-varying nonlinear inequality system, time-varying linear inequality system, and time-varying division, are investigated to better understand the essence of zeroing neutral network. Discrete-form time-varying problems are studied by considering the nature of unknown future and the requirement of real-time computation for time-varying problems. A unified model is proposed in the frame of zeroing neural network to uniformly solve these time-varying problems on the basis of their connections and a newly developed discretization formula. Theoretical analyses and numerical experiments, including the tracking control of PUMA560 robot manipulator, verify the effectiveness and precision of the proposed unified model.

Topics & Concepts

Artificial neural networkNonlinear systemDiscretizationNonlinear programmingMathematicsConvex optimizationDiscrete time and continuous timeMathematical optimizationFrame (networking)Computer scienceControl theory (sociology)Regular polygonControl (management)Artificial intelligenceMathematical analysisQuantum mechanicsTelecommunicationsGeometryPhysicsStatisticsRobotic Mechanisms and DynamicsImage and Video StabilizationIterative Learning Control Systems