1. Tanim, A. H., Smith-Lewis, C., Downey, A. R., Imran, J., & Goharian, E. (2024). Bayes_Opt-SWMM: A Gaussian process-based Bayesian optimization tool for real-time flood modeling with SWMM. Environmental Modelling & Software, 106122.
2. Tanim, A. H., McKinnie, F. W., & Goharian, E. (2024). Coastal Compound Flood Simulation through Coupled Multidimensional Modeling Framework. Journal of Hydrology, 630, 130691.
3. Tanim, A. H., Smith, C., Downy R., Imran, J. and Goharian, E (2023) 1. Bayes_Opt-SWMM: A Gaussian process-based Bayesian optimization tool for real-time flood modeling with SWMM. (Under Review)
4. Tanim, A. H., McKinnie, F. W.; and Goharian, E. “Coastal Compound Flood Simulation through Coupled Multidimensional Modeling framework.” Journal of Hydrology (In Press)
5. Tanim, A. H., and Goharian, E. “Toward an Integrated Probabilistic Coastal Vulnerability Assessment: A Novel Copula- Based Vulnerability Index”. Water Resources Research 59, no. 2 (2023): e2022WR033603. https://doi.org/https://doi. org/10.1029/2022WR033603.
6. Tanim, A. H., Goharian, E.; and Moradkhani, H. “Integrated socio-environmental vulnerability assess- ment of coastal hazards using data-driven and multi-criteria analysis approaches”. Scientific Reports 12, no. 1 (2022): 11625. https://doi.org/10.1038/s41598-022-15237-z
7. Tanim, A. H., and Goharian. E. “Developing a hybrid modeling and multivariate analysis framework for storm surge and runoff interactions in urban coastal flooding”. Journal of Hydrology 595 (2021): 125670. https://doi.org/10.1016/j.jhydrol.2020.125670
8. Tanim, A. H.; Goharian, E “Flood Detection in Urban Areas Using Satellite Imagery and Machine Learning”. Water 14, no. 7 (2022): 1140.
9. Tanim, A. H., Mullick, M. R. A. and Sikdar, M. S. “Evaluation of spatial rainfall products in sparsely gauged region using copula uncertainty modeling with triple collocation”. Journal of Hydrologic Engineering 26, no. 4 (2021): 04021004
10. Anh, D.T., Tanim, A.H., Kushwaha, D.P., Pham, Q.B., Bui, V.H., “Deep learning long short-term memory combined with discrete element method for porosity prediction in gravel-bed rivers” Int. J. Sediment Res. 38 (2023), 128–140.
11. Akter, A., and Tanim, A. H. “A modeling approach to establish environmental flow threshold in ungauged semid- iurnal tidal river”. Journal of Hydrology 558 (2018): 442–459. https://doi.org/https://doi.org/10.1016/j.jhydrol.2018. 01.061.
12. Tanim, A. H., and Akter, A. “Storm-surge modelling for cyclone Mora in the northern Bay of Bengal”. 172, no. 3 (2019): 73–94. https://doi.org/10.1680/jmaen.2019.1
13. Akter, A., and Tanim, A. H. “Salinity Distribution in River Network of a Partially Mixed Estuary”. Journal of Waterway, Port, Coastal, and Ocean Engineering 147, no. 2 (2021): 04020055. https://doi.org/10.1061/(ASCE)WW. 1943-5460.0000621.
14. Akter, A., Tanim, A. H., and Islam, M. K. “Possibilities of urban flood reduction through distributed- scale rainwater harvesting”. Water Science and Engineering 13, no. 2 (2020): 95–105. ISSN: 1674-2370. https://doi.org/10.1016/j.wse.2020.06.001
15. Mullick, M. R. A., Tanim, A. H., and Islam, S. M. S. “Coastal vulnerability analysis of
Bangladesh coast using fuzzy logic based geospatial techniques”. Ocean & Coastal Management 174
(2019): 154–169. ISSN: 0964- 5691
16. Mullick, Md Reaz Akter, KM Ashraful Islam, and Tanim, A. H., “Shoreline change assessment
using geospatial tools: a study on the Ganges deltaic coast of Bangladesh”. Earth Science Informatics 13
(2020): 299–316
17. Nguyen N-M, Do Van D, Le DT, Nguyen Q, Pham NT, Tanim, A. H., et al. Experimental
modeling of bed morphological changes and toe erosion of emerged breakwaters due to wave-structure
interactions in a deltaic coast. Marine Geology 2022; 454:106932.
https://doi.org/https://doi.org/10.1016/j.margeo.2022.106932
18. Nguyen N-M, Van D Do, Tanim, A. H., Cong SD, Chuong LT, Hai TD, et al. Experimental and
numerical modeling of pile-rock breakwater gap arrangement for optimal coastal erosion protection in
deltaic coasts. Ocean Engineering 2023; 280:114625.
https://doi.org/https://doi.org/10.1016/j.oceaneng.2023.114625
19. Dang, N. M., Vien, L. N., Tanim, A. H., Gagnon, A. S., & Anh, D. T. (2024). A Framework Using Applied Process Analysis Methods to Assess Water Security in the Vu Gia–Thu Bon River Basin, Vietnam. Sustainability, 16(13), 5749.
20. Nguyen N-M, Van D Do, Le DT, Nguyen Q, Tran B, Nguyen TC, Tanim A. H., et al. Physical
and numerical modeling of four different shapes of breakwaters to test the suspended sediment trapping capacity in the Mekong Delta. Estuarine, Coastal and Shelf Science 2022; 279:108141.
https://doi.org/https://doi.org/10.1016/j.ecss.2022.108141.
21. Le Xuan T, Ba HT, Thanh VQ, Wright DP, Tanim A. H., Tran Anh D. Evaluation of coastal
protection strategies and proposing multiple lines of defense under climate change in the Mekong Delta for sustainable shoreline protection. Ocean Coast Manag 2022; 228:106301.
https://doi.org/https://doi.org/10.1016/j.ocecoaman.2022.106301.
22. Nguyen N-M, Van D Do, Le DT, Cong SD, Tanim A. H., Pham NT, Nguyen Q, et al. Wave
reduction efficiency for three classes of breakwaters on the coastal Mekong Delta. Appl Ocean Res 2022; 129:103362. https://doi.org/https://doi.org/10.1016/j.apor.2022.103362.
23. Nguyen N-M, Van DD, Le Duy T, Pham NT, Duc Dang T, Tanim A.H., Wright D, Thanh PN, Anh DT. The Influence of Crest Width and Working States on Wave Transmission of Pile– Rock Breakwaters in the Coastal Mekong Delta. Journal of Marine Science and Engineering. 2022; 10(11):1762. https://doi.org/10.3390/jmse10111762
24. Anh, D.T., Thanh, D.V., Le, H.M., Tanim A.H., et al. Effect of Gradient Descent Optimizers and Dropout Technique on Deep Learning LSTM Performance in Rainfall-runoff Modeling. Water Resour Manage 37, 639–657 (2023). https://doi.org/10.1007/s11269-022-03393-w
Tanim, A. H., Smith, C.; Imran, J., Downey, A., and Goharian, E. (2023). "Bayes-Opt_SWMM: Uncertainty-Aware Real-Time Urban Stormwater Modeling with a Gaussian Process-based Bayesian Optimization" American Geophysical Union Fall Meeting 2023, 11-15 December 2023, San-Franscisco, CA.
Tanim, A. H., Goharian, E. and Imran, J. “BayesOpt-SWMM: A Gaussian process-based Bayesian Op- timization Tool for Parameter Calibration and Uncertainty Analysis of SWMM Model”. In AGU Fall Meeting Abstracts, vol. 2022, H35I–1228. 2022.
Tanim, A. H., Goharian, E. and McKinnie, F W. “Compound flood simulation in Charleston peninsula under climate change and sea level rise”. In AGU Fall Meeting Abstracts, vol. 2021, H35I–1133. 2021.
Islam, S. M. S, Tanim, A. H., and Mullick, M. R. A. “Vulnerability Assessment of Bangladesh Coastline Using Gornitz Method”. In Water, Flood Management and Water Security Under a Changing Climate: Proceedings from the 7th International Conference on Water and Flood Management, 301–313. Springer, 2020.
Tanim, A. H., Goharian, E. and Moradkhani, H. “A Multi-dimensional and Integrated Socio-Environmental Vulnerability Assessment in Coastal Systems”. In AGU Fall Meeting Abstracts, vol. 2020, H223–09. Dec. 2020.
Tanim, A. H. and Goharian, E. “Hybrid modeling framework for simulating compound floods in a coastal city”. In World Environmental and Water Resources Congress 2020: Groundwater, Sustainability, Hydro-Climate/Climate Change, and Environmental Engineering, 218–228. American Society of Civil Engineers Reston, VA, 2020.
Tanim, A. H. and Goharian, E. Developing a Hybrid Modeling and Multivariate Analysis Framework for Storm Surge and Runoff Interactions in Urban Coastal Flooding, International Conference of Water and Flood Management, BUET, Virtual Online, 2020
Huynh, N., Goharian, E., Vidal, J., Mullen, R., Meadows, M.E., Wang, J., Tanim, A.H. and Baez, L., 2021. Improving SCDOT Project Delivery Through Identifying Potentially Suitable Locations for Mitigation and Standardizing Section 401/404 Permit Application Process (No. FHWA-SC-21-06). South Carolina. Department of Transportation.