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00925njm 22002777a 4500 dc Gómez Bueno, Irene author Fernández Nieto, Enrique Domingo author Rubino, S. author 2025-05-04 This paper introduces a reduced-order modeling approach based on finite volume methods for hyperbolic systems, combining Proper Orthogonal Decomposition (POD) with the Discrete Empirical Interpolation Method (DEIM) and Proper Interval Decomposition (PID). Applied to systems such as the transport equation with source term, non-homogeneous Burgers equation, and shallow water equations with non-flat bathymetry and Manning friction, this method achieves significant improvements in computational efficiency and accuracy compared to previous time-averaging techniques. A theoretical result justifying the use of well-balanced Full-Order Models (FOMs) is presented. Numerical experiments validate the approach, demonstrating its accuracy and efficiency. Furthermore, the question of prediction of solutions for systems that depend on some physical parameters is also addressed, and a sensitivity analysis on POD parameters confirms the model’s robustness and efficiency in this case. Gómez-Bueno, I., Fernández-Nieto, E. D., & Rubino, S. (2026). Well-balanced POD-based reduced-order models for finite volume approximation of hyperbolic balance laws. Journal of Computational and Applied Mathematics, 471, 116735. 0377-0427 https://hdl.handle.net/10630/38694 10.1016/j.cam.2025.116735 Método de los volúmenes finitos Descomposición (Matemáticas) Ecuaciones diferenciales hiperbólicas Matemáticas aplicadas Well-balanced POD-based reduced-order models for finite volume approximation of hyperbolic balance laws