Momentum conservative schemes for shallow water flows SR Pudjaprasetya, I Magdalena East Asian Journal on Applied Mathematics 4 (2), 152-165, 2014 | 63 | 2014 |
Uni-directional waves over slowly varying bottom. Part I: Derivation of a KdV-type of equation E Van Groesen, SR Pudjaprasetya Wave Motion 18 (4), 345-370, 1993 | 47 | 1993 |
Staggered momentum conservative scheme for radial dam break simulation I Magdalena, N Erwina, SR Pudjaprasetya Journal of Scientific Computing 65 (3), 867-874, 2015 | 35 | 2015 |
Staggered scheme for the exner–shallow water equations PH Gunawan, R Eymard, SR Pudjaprasetya Computational Geosciences 19 (6), 1197-1206, 2015 | 31 | 2015 |
A staggered method for the shallow water equations involving varying channel width and topography S Mungkasi, I Magdalena, SR Pudjaprasetya, LH Wiryanto, SG Roberts International Journal for Multiscale Computational Engineering 16 (3), 2018 | 28 | 2018 |
Unidirectional waves over slowly varying bottom Part II. Quasi-homogeneous approximation of distorting waves SR Pudjaprasetya, E Van Groesen Wave Motion 23 (1), 23-38, 1996 | 26 | 1996 |
Wave interaction with an emerged porous media I Magdalena, SR Pudjaprasetya, LH Wiryanto Advances in Applied Mathematics and Mechanics 6 (5), 680-692, 2014 | 25 | 2014 |
Godunov method for Stefan problems with enthalpy formulations D Tarwidi, SR Pudjaprasetya East Asian Journal on Applied Mathematics 3 (2), 107-119, 2013 | 25 | 2013 |
Generation of Secondary Solitary Waves in the Variable‐Coefficient Korteweg–de Vries Equation RHJ Grimshaw, SR Pudjaprasetya Studies in Applied Mathematics 112 (3), 271-279, 2004 | 24 | 2004 |
Momentum conservative scheme for dam break and wave run up simulations S Pudjaprasetya, I Magdalena East Asian J. Appl. Math 4 (2), 152-165, 2014 | 21 | 2014 |
An optimized XGBoost-based machine learning method for predicting wave run-up on a sloping beach D Tarwidi, SR Pudjaprasetya, D Adytia, M Apri MethodsX 10, 102119, 2023 | 18 | 2023 |
A deep learning approach for wave forecasting based on a spatially correlated wind feature, with a case study in the Java Sea, Indonesia D Adytia, D Saepudin, SR Pudjaprasetya, S Husrin, A Sopaheluwakan Fluids 7 (1), 39, 2022 | 18 | 2022 |
Transport Phenomena, equations and numerical methods SR Pudjaprasetya INA-Rxiv, 2018 | 16 | 2018 |
A nonhydrostatic two-layer staggered scheme for transient waves due to anti-symmetric seabed thrust SR Pudjaprasetya, I Magdalena, SS Tjandra Journal of Earthquake and Tsunami 11 (01), 1740002, 2017 | 16 | 2017 |
Wave energy dissipation over porous media SR Pudjaprasetya, I Magdalena Appl. Math. Sci 7 (59), 2925-2937, 2013 | 14 | 2013 |
The splitting of solitary waves running over a shallower water SR Pudjaprasetya, E Van Groesen, E Soewono Wave Motion 29 (4), 375-389, 1999 | 14 | 1999 |
Modeling of wave run-up by using staggered grid scheme implementation in 1D Boussinesq model D Adytia, SR Pudjaprasetya, D Tarwidi Computational Geosciences 23, 793-811, 2019 | 13 | 2019 |
Numerical modeling of 2d wave refraction and shoaling I Magdalena, SR Pudjaprasetya AIP Conference Proceedings 1589 (1), 480-483, 2014 | 13 | 2014 |
A momentum-conserving scheme for flow simulation in 1D channel with obstacle and contraction PV Swastika, SR Pudjaprasetya, LH Wiryanto, RN Hadiarti Fluids 6 (1), 26, 2021 | 11 | 2021 |
Staggered grid implementation of 1D Boussinesq model for simulating dispersive wave D Adytia, D Tarwidi, SA Kifli, SR Pudjaprasetya Journal of Physics: Conference Series 971 (1), 012020, 2018 | 11 | 2018 |