Applied Mathematics and Computational Physics

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radial basis functions; finite difference methods; traveling waves; non-uniform grids; chaotic oscillator; one-step method; multi-step method; computer arithmetic; FPGA; high strain rate impact; modeling and simulation; smoothed particle hydrodynamics; finite element analysis; hybrid nanofluid; heat transfer; non-isothermal; shrinking surface; MHD; radiation; multilayer perceptrons; quaternion neural networks; metaheuristic optimization; genetic algorithms; micropolar fluid; constricted channel; MHD pulsatile flow; strouhal number; flow pulsation parameter; multiple integral finite volume method; finite difference method; Rosenau-KdV; conservation; solvability; convergence; transmission electron microscopy (TEM); convolutional neural networks (CNN); anomaly detection; principal component analysis (PCA); machine learning; deep learning; neural networks; Gallium-Arsenide (GaAs); radiation-based flowmeter; two-phase flow; feature extraction; artificial intelligence; time domain; Boltzmann equation; machine learning; collision integral; convolutional neural network; annular regime; scale layer-independent; petroleum pipeline; volume fraction; dual energy technique; heat transfer; prescribed heat flux; similarity solutions; dual solutions; stability analysis; radial basis functions; RBF-FD; node sampling; lebesgue constant; complex regions; finite-difference methods; data assimilation; model order reduction; finite elements analysis; high dimensional data; welding