An efficient Haar wavelet method for the coupled non-linear transient PDE-ODEs system with discontinuous coefficients
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In this work, the Haar wavelet method for the coupled non-linear transient PDE-ODEs system with the Neumann boundary condition has been proposed. The capability of the method in handling multiple jump discontinuities in the coefficients and parameters of the transient and coupled PDE-ODEs system is brought out through a series of 1D/2D/3D test problems. The method is easy to implement, computationally efficient, and compares well with conventional methods like the finite element method. Convergence analysis of the method has been carried out and apriori error is found to be exponential order i.e. ||u-u_H||_X<= o(2^j ). ILU-GMRES is found to better accelerate the numerical solution convergence than other Krylov solvers for the class of transient non-linear PDE-ODE system.
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