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Two New Zhang Neural Networks for Solving Time-Varying Linear Equations and Inequalities Systems

Wenqi Wu, Bing Zheng

2021IEEE Transactions on Neural Networks and Learning Systems20 citationsDOI

Abstract

Recently, Xu et al. solved a class of time-varying linear equations and inequalities systems (LEIESs) by using a Zhang neural network (ZNN) model through introducing a nonnegative relaxation vector. However, the introduction of this unknown nonnegative slack vector will increase the size and complexity of the model, thereby increasing the cost of computation. In this article, we propose two new ZNN models (called traditional Zhang neural network (TZNN) and variant Zhang neural network (VZNN) models, respectively) in which no additional relaxation vector is needed. The convergence analysis of these two new models are performed, and two simulation experiments are given to illustrate their efficiency and effectiveness for solving the time-varying LEIESs, including the applicability of our proposed models to robot manipulator.

Topics & Concepts

Artificial neural networkZhàngConvergence (economics)MathematicsRelaxation (psychology)Applied mathematicsMathematical optimizationLinear inequalityClass (philosophy)Computer scienceFeedforward neural networkSystem of linear equationsLinear equationArtificial intelligenceStochastic neural networkCurrent (fluid)Variational inequalityComputational complexity theoryAlgorithmLinear systemNonlinear systemLinear modelRobotic Mechanisms and DynamicsNeural Networks and ApplicationsModel Reduction and Neural Networks
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