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Stabilization of Integral Delay Equations by Solving Fredholm Equations
IEEE Control Systems LettersIEEE Control Systems Letters, In ...
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Nonlinear Fredholm Integral Equations
, 2020 In this paper, we present a new approximate method for solving systems of nonlinear Fredholm integral equation. This method is based on, first, differentiating both sides of integral equations n times and then substituting the Taylor series the unknown ...
Kübra Erdem, Salih Yalçınbaş
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The Wiener-Hopf solution of the isotropic penetrable wedge problem: diffraction and total field [PDF]
, 2011 The diffraction of an incident plane wave by an isotropic penetrable wedge is studied using generalized Wiener-Hopf equations, and the solution is obtained using analytical and numerical-analytical approaches that reduce the Wiener-Hopf factorization to ...
Vito Daniele +3 more
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Alexandria Engineering Journal, 2016 In this paper, we used the three-dimensional triangular functions (3D-TFs) for the numerical solution of three-dimensional nonlinear mixed Volterra–Fredholm integral equations. First, 3D-TFs and their properties are described.
Farshid Mirzaee, Elham Hadadiyan
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Fredholm Solution of Linear Integral Equations
, 1965 An integral equation of the form ζ(x) - λ∫ K(x, s) ζ(s) ds = f(x) a ≤ x ≤ b is called a Fredholm equation. By the method of successive approximations a solution can be obtained if the parameter λ is sufficiently small.
Furness, Dewey F.
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Semiorthogonal B-spline Wavelet for Solving 2D- Nonlinear Fredholm-Hammerstein Integral Equations [PDF]
, 2014 This work is concerned with the study of the second order (linear) semiorthogonal B-spline wavelet method to solve one-dimensional nonlinear Fredholm-Hammerstein integral equations of the second kind.
Hussain, Eman Ali, Ali, Lamyaa H.
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Chebyshev polynomials to Volterra-Fredholm integral equations of the first kind
REMATNumerous methods have been studied and discussed for solving ill-posed Volterra integral equations and ill-posed Fredholm integral equations, but rarely for both simultaneously.
Mohamed Nasseh Nadir, Adel Jawahdou
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Hybrid functions approach for the nonlinear Volterra–Fredholm integral equations
, 2011 An approximation method based on hybrid Legendre and Block–Pulse functions used for the solution of nonlinear Volterra–Fredholm integral equations (NV-FIEs). These hybrid functions operational matrices are presented and are utilized to reduce a nonlinear
E. Hashemizadeh +5 more
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The Study of Triple Integral Equations with Generalized Legendre Functions
Abstract and Applied Analysis, 2008 A method is developed for solutions of two sets of triple integral equations involving associated Legendre functions of imaginary arguments. The solution of each set of triple integral equations involving associated Legendre functions is reduced to a ...
B. M. Singh, J. Rokne, R. S. Dhaliwal
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, 1990 Following the (Bellman-type) differential quadrature method presented by Ȯlaȯfė and Mason [1] for the solution of ordinary and partial differential equations, Ȯlaȯfė [2] presented a new integral quadrature method for the solution of integral ...
Odotlaȯfė, G.O.
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