Cui-cui Ji scite author profile

In this paper we want to propose practical numerical methods to solve a class of initial-boundary problem of time-space fractional convection-diffusion equations (TSFCDEs). To start with, an implicit difference method based on two-sided weighted shifted Grünwald formulae is proposed with a discussion of the stability and convergence. We construct an implicit difference scheme (IDS) and show that it converges with second order accuracy in both time and space. Then, we develop fast solution methods for handling the resulting system of linear equation with the Toeplitz matrix. The fast Krylov subspace solvers with suitable circulant preconditioners are designed to deal with the resulting Toeplitz linear systems. * Each time level of these methods reduces the memory requirement of the proposed implicit difference scheme from O(N 2 ) to O(N ) and the computational complexity from O(N 3 ) to O(N log N ) in each iterative step, where N is the number of grid nodes. Extensive numerical example runs show the utility of these methods over the traditional direct solvers of the implicit difference methods, in terms of computational cost and memory requirements.

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The high-order compact numerical algorithms for the two-dimensional fractional sub-diffusion equation

Sun

2015

Applied Mathematics and Computation

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Numerical Algorithms with High Spatial Accuracy for the Fourth-Order Fractional Sub-Diffusion Equations with the First Dirichlet Boundary Conditions

Sun

Hao

2015

J Sci Comput

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Numerical Method for Solving the Time-Fractional Dual-Phase-Lagging Heat Conduction Equation with the Temperature-Jump Boundary Condition

Dai

Sun

2017

J Sci Comput

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Cui-cui Ji

A High-Order Compact Finite Difference Scheme for the Fractional Sub-diffusion Equation

Fast Iterative Method with a Second-Order Implicit Difference Scheme for Time-Space Fractional Convection–Diffusion Equation

The high-order compact numerical algorithms for the two-dimensional fractional sub-diffusion equation

Numerical Algorithms with High Spatial Accuracy for the Fourth-Order Fractional Sub-Diffusion Equations with the First Dirichlet Boundary Conditions

Numerical Method for Solving the Time-Fractional Dual-Phase-Lagging Heat Conduction Equation with the Temperature-Jump Boundary Condition

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