Youshen Xia scite author profile

Recently, a projection neural network for solving monotone variational inequalities and constrained optimization problems was developed. In this paper, we propose a general projection neural network for solving a wider class of variational inequalities and related optimization problems. In addition to its simple structure and low complexity, the proposed neural network includes existing neural networks for optimization, such as the projection neural network, the primal-dual neural network, and the dual neural network, as special cases. Under various mild conditions, the proposed general projection neural network is shown to be globally convergent, globally asymptotically stable, and globally exponentially stable. Furthermore, several improved stability criteria on two special cases of the general projection neural network are obtained under weaker conditions. Simulation results demonstrate the effectiveness and characteristics of the proposed neural network.

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An Extended Projection Neural Network for Constrained Optimization

Xia

2004

Neural Computation

141

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Recently, a projection neural network has been shown to be a promising computational model for solving variational inequality problems with box constraints. This letter presents an extended projection neural network for solving monotone variational inequality problems with linear and nonlinear constraints. In particular, the proposed neural network can include the projection neural network as a special case. Compared with the modified projection-type methods for solving constrained monotone variational inequality problems, the proposed neural network has a lower complexity and is suitable for parallel implementation. Furthermore, the proposed neural network is theoretically proven to be exponentially convergent to an exact solution without a Lipschitz condition. Illustrative examples show that the extended projection neural network can be used to solve constrained monotone variational inequality problems.

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On the Stability of Globally Projected Dynamical Systems

Xia

Wang

2000

Journal of Optimization Theory and Applications

171

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A recurrent neural network for solving linear projection equations

2000

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A Recurrent Neural Network for Solving Nonlinear Convex Programs Subject to Linear Constraints

Xia

Wang

2005

IEEE Trans. Neural Netw.

182

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In this paper, we propose a recurrent neural network for solving nonlinear convex programming problems with linear constraints. The proposed neural network has a simpler structure and a lower complexity for implementation than the existing neural networks for solving such problems. It is shown here that the proposed neural network is stable in the sense of Lyapunov and globally convergent to an optimal solution within a finite time under the condition that the objective function is strictly convex. Compared with the existing convergence results, the present results do not require Lipschitz continuity condition on the objective function. Finally, examples are provided to show the applicability of the proposed neural network.

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A recurrent neural network with exponential convergence for solving convex quadratic program and related linear piecewise equations

2004

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A Recurrent Neural Network for Nonlinear Convex Optimization Subject to Nonlinear Inequality Constraints

Xia

Wang

2004

IEEE Trans. Circuits Syst. I

145

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Further Results on Global Convergence and Stability of Globally Projected Dynamical Systems

Xia

2004

Journal of Optimization Theory and Applications

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Youshen Xia

A General Projection Neural Network for Solving Monotone Variational Inequalities and Related Optimization Problems

An Extended Projection Neural Network for Constrained Optimization

On the Stability of Globally Projected Dynamical Systems

A recurrent neural network for solving linear projection equations

A Recurrent Neural Network for Solving Nonlinear Convex Programs Subject to Linear Constraints

A recurrent neural network with exponential convergence for solving convex quadratic program and related linear piecewise equations

A Recurrent Neural Network for Nonlinear Convex Optimization Subject to Nonlinear Inequality Constraints

Further Results on Global Convergence and Stability of Globally Projected Dynamical Systems

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