A Neurodynamic Model to Solve Nonlinear Pseudo-Monotone Projection Equation and Its Applications

Eshaghnezhad, Mohammad; Effati, Sohrab; Mansoori, Amin

doi:10.1109/tcyb.2016.2611529

Cited by 59 publications

(13 citation statements)

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“…In recent decades, many neural networks have been utilized to solve optimization problems have been studied intensively and extensively [1]. In 2016, Eshaghnezhad et al [17] discussed the following nonlinear projection equation:…”

Section: Introductionmentioning

confidence: 99%

Generalized Hukuhara Weak Solutions for a Class of Coupled Systems of Fuzzy Fractional Order Partial Differential Equations without Lipschitz Conditions

Zhang

Lan

2022

Mathematics

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As is known to all, Lipschitz condition, which is very important to guarantee existence and uniqueness of solution for differential equations, is not frequently satisfied in real-world problems. In this paper, without the Lipschitz condition, we intend to explore a kind of novel coupled systems of fuzzy Caputo Generalized Hukuhara type (in short, gH-type) fractional partial differential equations. First and foremost, based on a series of notions of relative compactness in fuzzy number spaces, and using Schauder fixed point theorem in Banach semilinear spaces, it is naturally to prove existence of two classes of gH-weak solutions for the coupled systems of fuzzy fractional partial differential equations. We then give an example to illustrate our main conclusions vividly and intuitively. As applications, combining with the relevant definitions of fuzzy projection operators, and under some suitable conditions, existence results of two categories of gH-weak solutions for a class of fire-new fuzzy fractional partial differential coupled projection neural network systems are also proposed, which are different from those already published work. Finally, we present some work for future research.

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Section: Introductionmentioning

confidence: 99%

Generalized Hukuhara Weak Solutions for a Class of Coupled Systems of Fuzzy Fractional Order Partial Differential Equations without Lipschitz Conditions

Zhang

Lan

2022

Mathematics

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“…where F : Ω → R n is continuous and monotone function, on a non-empty closed convex set Ω ∈ R n . The monotonicity of F here means F(x) − F(y), x − y ≥ 0, ∀x, y ∈ Ω The system of monotone equations has various applications [5,8,15,40], e.g the ℓ 1 -norm problem arising from compressing sensing [17,20,34], generalized proximal algorithm with Bregman distances [11], variational inequalities problems [6,27], and optimal power flow equations [7,33] among others.…”

Section: Introductionmentioning

confidence: 99%

A diagonal PRP-type projection method for convex constrained nonlinear monotone equations

Mohammad¹

2021

Journal of Industrial &Amp; Management Optimization

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Iterative methods for nonlinear monotone equations do not require the differentiability assumption on the residual function. This special property of the methods makes them suitable for solving large-scale nonsmooth monotone equations. In this work, we present a diagonal Polak-Ribière-Polyk (PRP) conjugate gradient-type method for solving large-scale nonlinear monotone equations with convex constraints. The search direction is a combine form of a multivariate (diagonal) spectral method and a modified PRP conjugate gradient method. Proper safeguards are devised to ensure positive definiteness of the diagonal matrix associated with the search direction. Based on Lipschitz continuity and monotonicity assumptions the method is shown to be globally convergent. Numerical results are presented by means of comparative experiments with recently proposed multivariate spectral conjugate gradient-type method.

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“…Color versions of one or more figures in this article are available at https://doi.org/10.1109/TCYB.2019.2925707. Digital Object Identifier 10.1109/TCYB.2019.2925707 diverse neural solutions have been put forward to solve vari-ous optimization problems with respect to manifold types of constraints [5]- [14]. Solving optimization problems using neu-ral networks have several salient advantages over traditional numerical methods in real-time processing.…”

Section: Introductionmentioning

confidence: 99%

A Compact Neural Network for Fused Lasso Signal Approximator

Mohammadi

2021

IEEE Trans. Cybern.

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The fused lasso signal approximator (FLSA) is a vital optimization problem with extensive applications in signal processing and biomedical engineering. However, the optimization problem is difficult to solve since it is both non-smooth and nonseparable. The existing numerical solutions implicate the use of several auxiliary variables in order to deal with the nondifferentiable penalty. Thus, the resulting algorithms are both time-and memory-inefficient. This paper proposes a compact neural network to solve the FLSA. The neural network has a onelayer structure with the number of neurons proportion-ate to the dimension of the given signal, thanks to the utilization of consecutive projections. The proposed neural network is stable in the Lyapunov sense and is guaranteed to converge globally to the optimal solution of the FLSA. Experiments on several applications from signal processing and biomedical engineering confirm the reasonable performance of the proposed neural network.

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A Neurodynamic Model to Solve Nonlinear Pseudo-Monotone Projection Equation and Its Applications

Cited by 59 publications

References 50 publications

Generalized Hukuhara Weak Solutions for a Class of Coupled Systems of Fuzzy Fractional Order Partial Differential Equations without Lipschitz Conditions

Generalized Hukuhara Weak Solutions for a Class of Coupled Systems of Fuzzy Fractional Order Partial Differential Equations without Lipschitz Conditions

A diagonal PRP-type projection method for convex constrained nonlinear monotone equations

A Compact Neural Network for Fused Lasso Signal Approximator

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