| Neural networks for estimation of scour downstream of a ski-jump bucket HM Azmathullah, MC Deo, PB Deolalikar Journal of Hydraulic Engineering 131 (10), 898-908, 2005 | 253 | 2005 |
| Genetic programming to predict bridge pier scour HM Azamathulla, AA Ghani, NA Zakaria, A Guven Journal of Hydraulic Engineering 136 (3), 165-169, 2010 | 227 | 2010 |
| ANFIS-based approach for predicting sediment transport in clean sewer HM Azamathulla, AA Ghani, SY Fei Applied soft computing 12 (3), 1227-1230, 2012 | 183 | 2012 |
| Comparison between genetic algorithm and linear programming approach for real time operation HM Azamathulla, FC Wu, A Ab Ghani, SM Narulkar, NA Zakaria, ... Journal of Hydro-environment Research 2 (3), 172-181, 2008 | 170 | 2008 |
| Prediction of side weir discharge coefficient by support vector machine technique HM Azamathulla, AH Haghiabi, A Parsaie Water Science and Technology: Water Supply 16 (4), 1002-1016, 2016 | 165 | 2016 |
| Support vector machine approach for longitudinal dispersion coefficients in natural streams HM Azamathulla, FC Wu Applied Soft Computing 11 (2), 2902-2905, 2011 | 163 | 2011 |
| Alternative neural networks to estimate the scour below spillways HM Azamathulla, MC Deo, PB Deolalikar Advances in Engineering Software 39 (8), 689-698, 2008 | 158 | 2008 |
| Neuro-fuzzy GMDH to predict the scour pile groups due to waves M Najafzadeh, HM Azamathulla Journal of Computing in Civil Engineering 29 (5), 04014068, 2015 | 139 | 2015 |
| Gene-expression programming for the development of a stage-discharge curve of the Pahang River HM Azamathulla, AA Ghani, CS Leow, CK Chang, NA Zakaria Water resources management 25, 2901-2916, 2011 | 138 | 2011 |
| Genetic programming for predicting longitudinal dispersion coefficients in streams HM Azamathulla, AA Ghani Water resources management 25, 1537-1544, 2011 | 138 | 2011 |
| GMDH to predict scour depth around a pier in cohesive soils M Najafzadeh, GA Barani, HM Azamathulla Applied ocean research 40, 35-41, 2013 | 129 | 2013 |
| Gene expression programming for prediction of scour depth downstream of sills HM Azamathulla Journal of Hydrology 460, 156-159, 2012 | 126 | 2012 |
| An ANFIS-based approach for predicting the bed load for moderately sized rivers HM Azamathulla, CK Chang, AA Ghani, J Ariffin, NA Zakaria, ZA Hasan Journal of Hydro-Environment Research 3 (1), 35-44, 2009 | 124 | 2009 |
| 3D simulation of flow around a single spur dike with free-surface flow J Yazdi, H Sarkardeh, HM Azamathulla, AA Ghani Intl. J. River Basin Management 8 (1), 55-62, 2010 | 108 | 2010 |
| Gene-expression programming for sediment transport in sewer pipe systems A Ab. Ghani, H Md. Azamathulla Journal of pipeline systems engineering and practice 2 (3), 102-106, 2011 | 100 | 2011 |
| Linear genetic programming for prediction of circular pile scour A Guven, HM Azamathulla, NA Zakaria Ocean Engineering 36 (12-13), 985-991, 2009 | 100 | 2009 |
| ANFIS-based approach for predicting the scour depth at culvert outlets HM Azamathulla, AA Ghani Journal of pipeline systems engineering and practice 2 (1), 35-40, 2011 | 94 | 2011 |
| The state of the art in deep learning applications, challenges, and future prospects: A comprehensive review of flood forecasting and management V Kumar, HM Azamathulla, KV Sharma, DJ Mehta, KT Maharaj Sustainability 15 (13), 10543, 2023 | 93 | 2023 |
| Gene expression programming for total bed material load estimation—a case study NA Zakaria, HM Azamathulla, CK Chang, AA Ghani Science of the total environment 408 (21), 5078-5085, 2010 | 89 | 2010 |
| Machine learning approach to predict sediment load–a case study HM Azamathulla, AA Ghani, CK Chang, ZA Hasan, NA Zakaria CLEAN–Soil, Air, Water 38 (10), 969-976, 2010 | 87 | 2010 |
