The Cauchy problem of coupled elliptic sine–Gordon equations with noise: Analysis of a general kernel-based regularization and reliable tools of computing

Developments in numerical methods for problems governed by nonlinear partial differential equations underpin simulations with sound arguments in diverse areas of science and engineering. In this paper, we explore the regularization method for the coupled elliptic sine–Gordon equations along with Cau...

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Veröffentlicht in:	Computers & mathematics with applications (1987) 2017-01, Vol.73 (1), p.141-162
Hauptverfasser:	Khoa, Vo Anh, Truong, Mai Thanh Nhat, Duy, Nguyen Ho Minh, Tuan, Nguyen Huy
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Sprache:	eng
Schlagworte:	Cauchy problem Cauchy problems Computer programs Computer simulation Convergence rate Elliptic sine–Gordon equations Exact solutions Highly oscillatory integrals Ill-posedness Integral equations Iterative methods Josephson junctions Mathematical analysis Mathematical models Nonlinear differential equations Nonlinear equations Numerical analysis Numerical methods Partial differential equations Regularization Regularization methods Reliability Software Stability Studies Superconductivity Well posed problems
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container_title	Computers & mathematics with applications (1987)
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creator	Khoa, Vo Anh Truong, Mai Thanh Nhat Duy, Nguyen Ho Minh Tuan, Nguyen Huy
description	Developments in numerical methods for problems governed by nonlinear partial differential equations underpin simulations with sound arguments in diverse areas of science and engineering. In this paper, we explore the regularization method for the coupled elliptic sine–Gordon equations along with Cauchy data. The system of equations originates from the static case of the coupled hyperbolic sine–Gordon equations modeling the coupled Josephson junctions in superconductivity, and so far it addresses the Josephson π-junctions. In general, the Cauchy problem is not well-posed, and herein the Hadamard-instability occurs drastically. Generalizing the kernel-based regularization method, we propose a stable approximate solution. Confirmed by the error estimate, this solution strongly converges to the exact solution in L2-norm. The main concern of this paper is also with the way to compute the regularized solution formed by an alike integral equation. We employ the proposed techniques that successfully approximated the highly oscillatory integral, and apply the Picard-like iteration to organize an efficient and reliable tool of computations. The results are viewed as the improvement as well as the generalization of many previous works. The paper is also accompanied by a numerical example that demonstrates the potential of this idea.
doi_str_mv	10.1016/j.camwa.2016.11.001
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In this paper, we explore the regularization method for the coupled elliptic sine–Gordon equations along with Cauchy data. The system of equations originates from the static case of the coupled hyperbolic sine–Gordon equations modeling the coupled Josephson junctions in superconductivity, and so far it addresses the Josephson π-junctions. In general, the Cauchy problem is not well-posed, and herein the Hadamard-instability occurs drastically. Generalizing the kernel-based regularization method, we propose a stable approximate solution. Confirmed by the error estimate, this solution strongly converges to the exact solution in L2-norm. The main concern of this paper is also with the way to compute the regularized solution formed by an alike integral equation. We employ the proposed techniques that successfully approximated the highly oscillatory integral, and apply the Picard-like iteration to organize an efficient and reliable tool of computations. 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subjects	Cauchy problem Cauchy problems Computer programs Computer simulation Convergence rate Elliptic sine–Gordon equations Exact solutions Highly oscillatory integrals Ill-posedness Integral equations Iterative methods Josephson junctions Mathematical analysis Mathematical models Nonlinear differential equations Nonlinear equations Numerical analysis Numerical methods Partial differential equations Regularization Regularization methods Reliability Software Stability Studies Superconductivity Well posed problems
title	The Cauchy problem of coupled elliptic sine–Gordon equations with noise: Analysis of a general kernel-based regularization and reliable tools of computing
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