Haixiang Zhang scite author profile

In this paper, we study the numerical solution of initial boundary-value problem for the fourth-order partial integro-differential equations with a weakly singular kernel. We use the forward Euler scheme for time discretization and the quasi-wavelet based numerical method for space discretization. Detailed discrete formulations are given to the treatment of three different boundary conditions, including clamped-type condition, simply supported-type condition and a transversely supported-type condition. Some numerical experiments are included to demonstrate the validity and applicability of the discrete technique. The comparisons of present results with analytical solutions show that the quasi-wavelet based numerical method has a distinctive local property. Especially, the method is easy to implement and produce very accurate results.

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Discrete-time orthogonal spline collocation method with application to two-dimensional fractional cable equation

Zhang

Yang

Han

2014

Computers & Mathematics with Applications

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Haixiang Zhang

Orthogonal spline collocation method for the two-dimensional fractional sub-diffusion equation

Crank–Nicolson/quasi-wavelets method for solving fourth order partial integro-differential equation with a weakly singular kernel

Quintic B-spline collocation method for fourth order partial integro-differential equations with a weakly singular kernel

Quasi-wavelet based numerical method for fourth-order partial integro-differential equations with a weakly singular kernel

Discrete-time orthogonal spline collocation method with application to two-dimensional fractional cable equation

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