SEHH — NTUCE

STOCHASTIC ENVIRONMENTAL HYDRAULICS AND HYDROLOGY LABORATORY

Department of Civil Engineering, National Taiwan University

Publications

Refereed Journal Publications

(underlined authors indicating Graduate students/Postdocs supervised; * denoting corresponding author)

Tsai, C. W.*, Tung, Y-J, Hastanjaya, R., Hung, Y-J, Moha, S. (2025). Spatiotemporal Analysis of Wildfire Severity in California, United States via Satellite Imagery and In-Situ Data, 2000-2023, International Journal of Applied Earth Observation and Geoinformation (accepted)
Hossain, S., Barik, S. and Tsai, C.W.* (2026). Dispersion Characteristics of Solute Transport in Porous Channel Flow with Uniform Vertical Crossflow. Communications in Nonlinear Science and Numerical Simulation Volume 152, Part B, 109195, ISSN 1007-5704, https://doi.org/10.1016/j.cnsns.2025.109195.
Mohan, S., Kumbhakar, M. and Tsai, C.W.* (2025). Analytical modeling of suspended sediment concentration in open channels using fractional entropy and random walk hypothesis. Stochastic Environmental Research and Risk Assessment, https://doi.org/10.1007/s00477-025-03081-2
Kumbhakar, M. and Tsai, C. W.* (2025). Reflected Stochastic Differential Equation Model for Suspended Sediment Transport in Open Channels. Physics of Fluids. Vol. 37, Issue 7. https://doi.org/10.1063/5.0273281
Barik,S. and Tsai, C. W* (2025). Solute transport in turbulent flows through an open channel with reversible and irreversible boundary reactions. Physics of Fluids, Vol. 37, Issue 5. https://doi.org/10.1063/5.0252603
Hossain, S. and Tsai, C.W.* (2025). Understanding Solute Dispersion in EMHD-EOF Microchannels: The Role of Magnetic and Electric Field Interactions. Chaos, Solitons and Fractals. Vol.199, Part 1. 116556. https://doi.org/10.1016/j.chaos.2025.116556
Hung, Y.-J., and Tsai, C.* (2025). Application of Stochastic Models for Long-Range Sediment Transport During Extreme Typhoon Events. Journal of Hydrology: Regional Studies, 60, 102463, https://doi.org/10.1016/j.ejrh.2025.102463
Halwatura, L., Tung, J. Y., Abaya, L.,Witmer, C., Tsai , C.*,and Aga, D.* (2024). Time-Dependent Intrinsic Correlation Analysis Reveals Positive Relationship between Drug Types in Wastewater: Antidepressants vs Illicit Drugs and Analgesics vs Antibiotics/Antivirals. ACS ES&T Water, 4(12), 5301-5309. https://doi.org/10.1021/acsestwater.4c00340
Hung, Y.-J. and Tsai, C.W.* (2024). Modeling Memory-Enhanced Stochastic Suspended Sediment Transport with Fractional Brownian Motion in Time-Persistent Turbulent Flow. Stochastic Environmental Research and Risk Assessment, https://doi.org/10.1007/s00477-024-02818-9
Lin, S.-W., Mohan, S. and Tsai, C. W.* (2024). Modified stochastic diffusion particle-tracking model (MSDPTM) incorporating energy cascade theory and eddy intermittency for suspended sediment transport in open channel flow. Chaos: An Interdisciplinary Journal of Nonlinear Science, 34, 103126, https://doi.org/10.1063/5.0212322
Shen, S. W., & Tsai, C. W.* (2024). Incorporating memory effect into a fractional stochastic diffusion particle tracking model for suspended sediment using Malliavin-Calculus-based fractional Brownian Motion. Chaos, Solitons & Fractals, 187, 115312. https://doi.org/10.1016/j.chaos.2024.115312
Tsai, C.W.* and Chen, C.-K. (2024). River Dust-Induced Air Pollution in a Changing Climate: A Study of Taiwan's Choshui and Kaoping Rivers. Environmental Pollution., 124398., https://doi.org/10.1016/j.envpol.2024.124398
Mohan, S., & Tsai, C. W.* (2024). Derivation of vertical concentration profile for nonuniform sediment in suspension using Shannon entropy. Chaos, Solitons & Fractals, 178, 114313., https://doi.org/10.1016/j.chaos.2023.114313
Tsai, C.W.*, Lin, M-L, and Tung, J. Y. (2024). Spatial and Temporal Evolution of Heatwaves in Taiwan in a Changing Climate using Multi-dimensional Complementary Ensemble Empirical Mode Decomposition. Ecological Informatics. 102585, ISSN 1574-9541, https://doi.org/10.1016/j.ecoinf.2024.102585
Tsai, C.W.*, Wu, M-J., and Kumbhakar, M. (2024). Modified Stochastic Diffusion Particle Tracking Model Driven by Skew Brownian Motion: Analysis of Sediment Particle Motion in Turbulent Flow under the Effects of Ejection and Sweep. Chaos: An Interdisciplinary Journal of Nonlinear Science, 34, 033132, https://doi.org/10.1063/5.0173658
Tsai, C. W.*, Liu. W.-J., and Lin, S.-W. (2024). Incorporating A Backward-forward Stochastic Particle Tracking Model into A Hydraulic Modelling Framework for Identifying Probable Sedimentation Sources during Typhoons. Journal of Hydrology: Regional Studies, 52, 101656, ISSN 2214-5818, https://doi.org/10.1016/j.ejrh.2024.101656.
Tsai, C.W.*, Chen, C.-K. (2023). River-dust induced airborne particulate matter forecasting using a hybrid improved complete ensemble empirical mode decomposition with adaptive noise and radial basis function neural network. Atmospheric Environment, 119991. https:// doi.org/10.1016/j.atmosenv.2023.119991
Kumbhakar, M., Tsai, C.W.*, Absi R. (2023). Semi-analytical modeling of sediment-laden open-channel flows with the effects of stratification, hindered settling, and eddy viscosities. Chaos: An Interdisciplinary Journal of Nonlinear Science, 33(8). https://doi.org/10.1063/5.0157383
Kumbhakar, M., Tsai, C.W.*, and Singh, V.P. (2023). Improved Velocity Profile in Open Channels Using Incomplete Information Based Entropy Theory. ASCE Journal of Hydrologic Engineering. https://ascelibrary.org/doi/abs/10.1061/JHYEFF.HEENG-5978
Huang, Y.-Y. and Tsai, C.W.* (2023). Modeling suspended sediment transport under the influences of attached eddies in turbulent flows. Stochastic Environmental Research and Risk Assessment. https://link.springer.com/article/10.1007/s00477-023-02458-5
Kumbhakar, M., & Tsai, C. W. (2023). Analytical modeling of vertical distribution of streamwise velocity in open channels using fractional entropy. Chaos, Solitons & Fractals, 169, 113285, https://doi.org/10.1016/j.chaos.2023.113285.
Tsai, C. W.*, Chiang, C. H., & Shen, S. W. (2022). Probabilistic eutrophication risk mapping in response to reservoir remediation. Journal of Hydrology: Regional Studies, 44, 101213, https://doi.org/10.1016/j.ejrh.2022.101213.
Kumbhakar, M., & Tsai, C. W.* (2022). A probabilistic model on streamwise velocity profile in open channels using Tsallis relative entropy theory. Chaos, Solitons & Fractals, 165, 112825, https://doi.org/10.1016/j.chaos.2022.112825.
Wu, K.-T., Tsai, C. W.*, & Wu, M.-J. (2022). Probabilistic characterization of sweep and ejection events in turbulent flows and its implications on sediment transport. Water Resources Research, 58, e2021WR030417, https://doi.org/10.1029/2021WR030417.
Lin, M-L, Tsai, C.W.* and Chen, C-K (2021). Daily maximum temperature forecasting in changing climate using a hybrid of Multi-dimensional Complementary Ensemble Empirical Mode Decomposition and Radial Basis Function Neural Network, Journal of Hydrology: Regional Studies, Volume 38, 100923,
https://doi.org/10.1016/j.ejrh.2021.100923.
Tsai, C. W.*, Huang, S.-H., & Hung, S. Y. (2021). “Incorporating the memory effect of turbulence structures into suspended sediment transport modeling”. Water Resources Research, 57(3), e2020WR028475. https://doi. org/10.1029/2020WR028475.
Liu, C. C., Tsai, C.W.*, and Huang, Y.-Y. (2021). “Development of a Backward–Forward Stochastic Particle Tracking Model for Identification of Probable Sedimentation Sources in Open Channel Flow”, Mathematics, 9(11), 1263. https://www.mdpi.com/2227-7390/9/11/1263
Tsai, C.W.*, Yeh, T.-G., Y. Hsu, Wu, K.-T., and Liu, W.J. (2021).“Risk analysis of reservoir sedimentation under non‐stationary flows” Journal of Flood Risk Management, 14(2), e12706.
https://onlinelibrary.wiley.com/doi/10.1111/jfr3.12706
Huang, C.-H., Tsai, C.W.*, Mousavi, S.M. (2021). “Quantification of Probabilistic Concentrations for Mixed-Size Sediment Particles in Open Channel Flow” Stochastic Environmental Research and Risk Assessment, 35(2), 419-435, https://doi.org/10.1007/s00477-020-01886-x.
Huang, C-H., Tsai, C.W.*, and Wu, K.-T. (2020). “Estimation of Near-Bed Sediment Concentrations in Turbulent Flow Beyond Normality” Chaos, Solitons, & Fractals, 139, 11pp.
https://www.sciencedirect.com/science/article/abs/pii/S0960077920303544
Tsai, C.W.*, Y.-R. Hsiao., Lin, M.L., and Hsu, Y.W. (2020). “Development of a noise-assisted multivariate empirical mode decomposition framework for characterizing PM 2.5 air pollution in Taiwan and its relation to hydro-meteorological factors” Environment International, Vol., 139.
https://doi.org/10.1016/j.envint.2020.105669.
Hester, E.*, Lin, A. and Tsai, C.W. (2020). “Effect of Floodplain Restoration on Removal of Nitrate and Pharmaceuticals: Anaerobic and Photolytic Processes” Environmental Science and Technology, 54(6), 3278–3287.
https://pubs.acs.org/doi/10.1021/acs.est.9b06850?ref=pdf
Zhu, G, Chou, M.C.* and Tsai, C.W. (2020) “Lessons Learned from the COVID-19 Pandemic Exposing the Shortcomings of Current Supply Chain Operations: A Long-Term Prescriptive Offering” Sustainability, 12 (14), 5858.
https://www.mdpi.com/2071-1050/12/14/5858
Tsai, C.W.*, Hung, S. Y., and Wu, T-H. (2020). “Stochastic sediment transport: anomalous diffusions and random movement” Stochastic Environmental Research and Risk Assessment, 34, 397–413.
https://link.springer.com/article/10.1007/s00477-020-01775-3

Tsai, C.W.*, and Huang, S-H. (2019) “Influence of turbulent coherent structure on suspended sediment transport” Water Resources Research, 55(7), 5379-5393.
Tsai, C.W.*, and Huang, S-H. (2019) “Modeling suspended sediment transport under influence of turbulence ejection and sweep events” Water Resources Research, 55(7), 5379-5393.
Tsai, C.W.*and Treadwell, H. (2019). “Analysis of Trend and Variability of Toxic Concentrations in the Niagara River using Hilbert-Huang Transform method” Ecological Informatics, 5:129-150.
Tsai, C.W.*, Yeh, J.J. and Huang, C-H. (2019). “Development of Probabilistic Inundation Mapping for Dam Failure Induced Floods” Stochastic Environmental Research and Risk Assessment. 33: 91. https://doi.org/10.1007/s00477-018-1636-8
Tsai, C.W.*, Yeh, T.-G., and Y.-R. Hsiao (2018). “Evaluation of Hydrologic and Meteorological Impacts on Dengue Fever Incidences in Southern Taiwan using Time-Frequency Method” Ecological Informatics. http://10.1016/j.ecoinf.2018.05.002, Volume 46, 166-178
Tsai, C.W.*, Hung, S. Y., and Oh, J.S. (2018). “A stochastic framework for modeling random-sized batch arrivals of sediment particles into surface waters” Stochastic Environmental Research and Risk Assessment. 32, pages1939–1954, https://doi.org/10.1007/s00477-018-1529-x.
Oh. J. S. and Tsai, C. W.* (2018). “A Stochastic multivariate framework for modeling movement of discrete particles in open channel flows” Stochastic Environmental Research and Risk Assessment, 32: 385. https://doi.org/10.1007/s00477-017-1410-3.
Oh. J. S., Jung-Il Choi, Choi, S-U, and Tsai, C. W. (2016). “Physically-based Probabilistic Analysis of Sediment Deposition in Open Channel Flow” ASCE Journal of Hydraulic Engineering 10.1061/(ASCE)HY.1943-7900.0001269, 04016106.
Tsai, C.W.*, Lin, Y.T. , and Hung, S. Y. (2016). “Incorporating flow trend analysis into particle tracking models for particle movement” Journal of Hydrology 541, pp. 689-702. DOI information: 10.1016/j.jhydrol.2016.07.007.
Tsai, C.W.*, Wu, N.K., and Huang, C.H. (2016). “A multiple state discrete-time Markov chain for estimating suspended sediment concentrations in open channel flow” Applied Mathematical Modelling 40(23), pp. 10002-10019. DOI information: 10.1016/j.apm.2016.06.037.
Kuai, K. and Tsai, C.* (2016). "Discrete-Time Markov Chain Model for Transport of Mixed-Size Sediment Particles under Unsteady Flow Conditions." ASCE J. Hydrol. Eng., 10.1061/(ASCE)HE.1943-5584.0001392, 04016039.
Oh, J. , Tsai, C.*, and Choi, S. (2015). "Quantifying the Uncertainty Associated with Estimating Sediment Concentrations in Open Channel Flows Using the Stochastic Particle Tracking Method." ASCE J. Hydraul. Eng. 10.1061/(ASCE)HY.1943-7900.0001045 , 04015031.
Tsai, C.W.* and Lai, K.C. (2014). “A Three-state continuous-time Markov chain model for mixed size sediment particle transport” ASCE Journal of Hydraulic Engineering, 140(9), 04014047 (10pp), doi: 10.1061/(ASCE)HY.1943- 7900.0000897.
Tsai, C.W.* and Li, M. (2014). “Uncertainty analysis and risk assessment of DO concentrations in the Buffalo River Using the Perturbance Moments Method” ASCE Journal of Hydrologic Engineering, 19(12), 04014032 (12pp), http://dx.doi.org/10.1061/(ASCE)HE.1943-5584.0000985
Tsai, C.W.*, Man, C. and Oh, J.S. (2014). “A stochastic particle based model for suspended sediment in surface flows.” International Journal of Sediment Research 29 (2014), 195-207.
Tsai, C.W.*, Hsu, Y.W., and Lai, K.C., Wu, N.K. (2014). “Application of Gambler’s ruin model to sediment transport problems“ Journal of Hydrology. 510: 197-207. http://dx.doi.org/ 10.1016 /j.jhydrol. 2013.11.038.
Tsai, C.W.* and Yang, F.-N. (2013). “Modeling bedload transport using a three-state continuous-time Markov chain model.” ASCE Journal of Hydraulic Engineering, 139(12), 1265-1276.
Franceschini, S., Tsai, C.W., and Marani, M. (2012).“ Point Estimate Methods based on Taylor series expansion – the Perturbance Moments Method – a more coherent derivation of the second order statistical moment.” Applied Mathematical Modelling, 36(11), 5445-5454.
Franceschini, S., Marani, M., Tsai, C.W., and Zambon, F. (2012). “A perturbance moment point estimate method for uncertainty analysis of the hydrologic response.” Advances in Water Resources, 40, 46-53, DOI: 10.1016/j.advwatres.2012.02.007.
Kuai, K. Z. and Tsai, C.* (2012).“Identification of varying time scales in sediment transport using the Hilbert–Huang Transform method. J. Hydrology, Vol. 401-402, 245-254, doi:10.1016/j.jhydrol.2011.12.007.
Oh, J.S. , Tsai, C. W.* (2011). A stochastic jump diffusion particle-tracking model (SJD-PTM) for sediment transport in open channel flows (vol 47, W03902, 2011). Water Resources Research, 47.
Oh, J.S., and Tsai, C.* (2010). “A stochastic jump diffusion particle-tracking model (SJD-PTM) for sediment transport in open channel flows.” Water Resources Research, VOL. 46, W10508, 20pp, doi:10.1029/2009WR008443.
Franceschini, S. and Tsai, C.* (2010). “Assessing uncertainty sources in water quality modeling in the Niagara River.” Advances in Water Resources, 33(4), 493–503.
Franceschini, S and Tsai, C.* (2010). “Application of Hilbert Huang Transform method for analyzing toxic concentrations in the Niagara River.” ASCE Journal of Hydrologic Engineering 15(2), 90-96.
Man, C. and Tsai, C.W.* (2008). “A higher-order predictor-corrector scheme for two-dimensional advection-diffusion equation.” International Journal for Numerical Methods in Fluids. 56 (4), 401-418, DOI: 10.1002/fld.1528.
Francheschini, S. and Tsai, C.W.* (2008). “Incorporating reliability into the definition of the margin of safety in total maximum daily load calculations.” ASCE Journal of Water Resources Planning and Management, 134(1), 34-44.
Bhowmik, N.G., Tsai, C. W., Parmar P., and Demissie, M. (2008). “A case study: application of the HEC-6 model for the main stem of the Kankakee River in Illinois.” ASCE Journal of Hydraulic Engineering, 134(4), 355-366.
Man, C. and Tsai, C. W.* (2007). “A stochastic partial differential equation- based model for suspended sediment transport in surface water flows.” ASCE Journal of Engineering Mechanics, 133(4), 422-430. (quoted as “papers of interest” by ASCE J. Hydraulic Eng. May 2007).
Samara, F., Tsai, C.W. and Aga, D.S. (2006). “Determination of potential sources of PCBs and PBDEs in sediments of the Niagara River.” Environmental Pollution, 139(3), 489-497.
Tsai, C. W.* (2005). “Flow routing in mild sloped rivers-wave characteristics and downstream backwater effect”, Journal of Hydrology, Elsevier Science, Vol. 308/1-4, 151-167.
Tsai, C. W.* and Franceschini, S. (2005). “Evaluation of probabilistic point estimate methods in uncertainty analysis for environmental engineering applications”, ASCE Journal of Environmental Engineering, 131(3), 387-395.
Tsai, C. W.-S., and Yen, B.C. (2004). “Shallow water wave in convectively accelerating open-channel flow induced by a tailwater effect” ASCE Journal of Engineering Mechanics, 130(3), 320-336.
Tsai, C. W.* (2003). “Applicability of kinematic, noninertia and quasi-steady dynamic wave models to unsteady flow routing.” ASCE Journal of Hydraulic Engineering, 129(8), 613-627.
Markus, M., Tsai, C.W.-S., and Demissie, M. (2003). “Uncertainty of weekly nitrate concentration predictions using artificial neural networks.” ASCE Journal of Environmental Engineering, 129(3), 267-274.
Tsai, C. W.-S., and Yen, B. C. (2001). “Linear analysis of shallow water wave propagation in open channels.” ASCE Journal of Engineering Mechanics 127(5), 459-472.
Yen, B.C., and Tsai, C. W.-S. (2001). “On noninertia wave versus diffusion wave in flood routing.” Journal of Hydrology, Elsevier Science, 244(1/2), 97- 104.

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Refereed Conference Proceeding Publications

Tsai, C. and Kuai, K. Z. (2004). “Nonlinear modeling of wave propagation over a mobile sediment bed under uncertainty. ” Proc., The Sixth International Conference on Hydro-science and Engineering, 13pp. Brisbane, Australia.

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Contributed

Collaborate with Prof. Mabel Chou at National University of Singapore (NUS) on Extreme Event Analysis.
Collaborate with Prof. Diana Aga at the RENEW Institute at State University of New York at Buffalo on Wastewater Epidemiology.
Collaborate with Prof. Rafik Absi (ECAM-EPMI) on the topic of sediment transport.
Collaborate with Prof. Vijay Singh (University of Texas at A&M) on the topic entropy approaches.
Invited to serve on the editorial board of Journal f Hydrology: Regional Studies. Has made several editorial suggestions to the journal regarding the aim and scope of the journal at the editorial board meeting held at AGU (12/13/2022).
Hung, S. Y., Wu, T.-H. and Tsai, C. (2017). “ Normal and anomalous diffusion in suspended sediment particles in open channel flow “, Proceedings, 2017 World Water and Environmental Resources Congress, May 22-25, Sacramento, CA.
Huang, C.H., and Tsai, C* (2017). “ Estimation of near-bed sediment concentrations by the Lagevin equation using an improved statistical distribution of particle displacement “ Proceedings, 2017 World Water and Environmental Resources Congress, May 22-25, Sacramento, CA.
Huang, C.H. and Tsai, C. (2016). “ Modeling turbidity currents using the multiple-state discrete-time Markov chains. “ Proc., The 12th International Conference on Hydro-science and Engineering, November 7-10, Tinan, Taiwan.
Hung, S.Y. and Tsai, C. (2016). “ Application of Batch Poisson process to random-sized batch arrivals of sediment particles. “ Proc. , The 12th International Conference on Hydro-science and Engineering, November 7-10, Tinan, Taiwan.
Mousavi, S. M., Tsai, C. and Young, D.L. (2016). “ Comparison of Localized Radial Basis Functions (LRBF) solution of the two-dimensional advection-diffusion equation to the Finite difference methods (FDMs). “ Proc. , The 12th International Conference on Hydro-science and Engineering, November 7-10, Tinan, Taiwan.
Tsai, C* and Hung, S. Y. (2016). “ Evaluation of potential climate change effects on particle movement in surface water “, Proceedings, 2016 World Water and Environmental Resources Congress, May 17-21, West Palm Beach, FL.
Liu, C.H., and Tsai, C* (2016). “ Application of a Gambler’s ruin model to uncertainty assessment of reservoir sedimentation problems “ Proceedings, 2016 World Water and Environmental Resources Congress, May 17-21, West Palm Beach, FL.
Tsai, C* and Lin, E. Y. # (2015). “Evaluation of potential climate change effects on particle movement in surface water” to be presented at 2015 World Water and Environmental Resources Congress, May 17-21, Austin, TX.
Tsai, C* and Wu, N.K. # (2015). “Application of a Gambler’s ruin model to uncertainty assessment of reservoir sedimentation problems ” to be presented at 2015 World Water and Environmental Resources Congress, May 17-21, Austin, TX.
Tsai, C. W.*, Lin, E. Y. # and Hung, S. Y. (2014). “Application of a physically based stochastic approach to evaluate particle movement uncertainty in open channel flow.” Eos Trans. AGU, Fall Meet. Suppl., Abstract H11G-0949, San Francisco, CA.
Lin, E.Y. #, Tsai, C.W.* and Hung, S.Y. (2014). “Evaluation of potential climate change impacts on particle movement in open channel flow.” Eos Trans. AGU, Fall Meet. Suppl., Abstract GC41D-0612, San Francisco, CA.
Tsai, C*, Lai, K.C. and Wu, N.K. (2013). “Application of Gambler’s ruin model to sediment transport modeling” 17 th Cross strait hydro-tech Conference, Myao-Li, Taiwan.
Tsai, C.* and Li, M. (2013). “Uncertainty analysis of water quality using the Perturbance Moments Method” Proc. IAHR 2013, 10pp. Wu-Han, China.
Kuai, K. and Tsai, C. (2012). “Stochastic modeling of nonuniform sediment transport under unsteady flow conditions” Proc, World Water and Environmental Resources Congress 2012, Albuquerque, NM.
Oh, J.S. and Tsai, C. (2011). “Stochastic Multivariate modeling for sediment transport” Proc, World Water and Environmental Resources Congress 2011, EWRI, 10pp. Palm Springs, CA.
Yang, Fu-Ning. and Tsai, C. (2011). “Modeling movement of sediment particles by a three-state continuous-time Markov chain model”, Proc, World Water and Environmental Resources Congress 2011, EWRI, 10pp. Palm Springs, CA.
Oh, J.S. and Tsai, C. (2010). “Estimation of particle concentrations using stochastic particle tracking method in open channel flows” Proc, World Water and Environmental Resources Congress 2010, EWRI, 10pp. Providence, RI.
Kuai, K. Z. and Tsai, C. (2010). “Application of Hilbert-Huang Transform method to the analysis of varying timescales in sediment transport”, Proc, World Water and Environmental Resources Congress 2010, EWRI, 10pp. Providence, RI.
Tsai, C and Oh, J.S. (2009). “A stochastic diffusion jump model of suspended sediment transport in case of hydrologic extreme events” Proc, IAHR, 10pp. Vancouver, Canada.
Oh, J.S. and Tsai, C. (2009). “A stochastic diffusion jump model of suspended sediment transport in case hydrologic extreme events” Proc, World Water and Environmental Resources Congress 2009, EWRI, 10pp. Kansas City, MO.
Kuai, K. Z. and Tsai, C. (2009). “A stochastic non-equilibrium bedload transport model” Proc, World Water and Environmental Resources Congress 2009, EWRI, 10pp. Kansas City, MO.
Tsai, C and Oh, J.S. (2008). “A stochastic diffusion jump model of suspended sediment transport in case hydrologic extreme events” Proc, World Water and Environmental Resources Congress 2008, EWRI, 10pp. Honolulu, HI.
Tsai, C and Franceschini, S. and Ho, S. P. (2008). “Application of Hilbert Huang Transform Method for Analysis and Forecast of Toxic Concentrations in the Niagara River” Proc, World Water and Environmental Resources Congress 2008, EWRI, 10pp. Honolulu, HI.
Franceschini, S. and Tsai, C. (2007). “A reliability based approach to define the margin of safety” Proc., 2007 IAHR Congress, 10pp. Venice, Italy.
Man, C. and Tsai, C. (2007). “Stochastic modeling of suspended sediment transport.” Proc, World Water and Environmental Resources Congress 2007, EWRI, 9 pp. Tampa, FL.
Tsai, C. and Man, C. (2006). “A novel approach to modeling suspended sediment movement during floods in natural rivers” Proc, 7th International Conference on Hydroinformatics, 5pp. Nice, France.
Man, C. and Tsai, C. (2006). “A staggered-grid scheme for the advection-dispersion equation.” Proc, World Water and Environmental Resources Congress 2006, EWRI, 7pp. Omaha, NE.
Tsai, C. and Man, K.C. (2005). “Modeling of suspended sediment using SDE.” Proc, 2005 IAHR annual congress, 6pp. Seoul, South Korea.
Man, K.C., and Tsai, C. (2005). “Stochastic simulation of suspended sediment transport in natural flows” Proc, 2005 Mechanics and Material Conference, 6pp. ASCE, Baton Rouge, LA.
Tsai, C., Kuai, K. Z., Bursik, M. and Hess, D. (2005). “Applicability and experimental verification of a dam-break flood and sediment transport model.” Proc., World Water and Environmental Resources Congress 2005, EWRI, 10pp. Anchorage, AK.
Franceschini, S. and Tsai, C. (2004). “Application of point estimate methods to modeling of toxic concentrations in the Niagara river.” Proc., World Water and Environmental Resources Congress 2004, EWRI, 10pp. Salt Lake City, AZ.
Tsai, C. and Kuai, K. Z. (2004). “Nonlinear modeling of shallow water wave propagation over a mobile sediment bed in open-channel flow.” Proc., 17th Engineering Mechanics Division Conference 2004, 8pp. ASCE, Newark, DE.
Tsai, C. W. and Kuai, K. Z. (2003). “Hydraulic response of the bedwave to a flood wave.” Proc. 16th Engineering Mechanics Division Conference 2003, ASCE, 4pp. Seattle, WA.
Tsai, C. and Franceschini, S. (2003). “An improved point estimate method for probabilistic risk assessment.” Proc. World Water and Environmental Resources Congress 2003, EWRI, 7 pp. Philadelphia, PA
Franceschini, S. and Tsai, C. (2003). “Uncertainty analysis of the Niagara River Hexachlorobenzene toxic concentrations.” Proc. World Water and Environmental Resources Congress 2003, EWRI, 10 pp. Philadelphia, PA
Bhowmik, N. G., Tsai, C., and Demissie, M. (2003). “Application of the HEC-6 model to evaluate the potential effects of ecosystem restoration projects.” In Hydrologic modeling for the 21st century: proceedings of the Second Federal Interagency Hydrologic Modeling Conference, July 28-August 1, 2002, Las Vegas, NevadaReston, Va.: United States Interagency Advisory Committee on Water Data, Subcommittee on Hydrology, 9pp.
Tsai, C. W.-S. (2002). “Applicability of the noninertia wave model to flood wave propagation.” Proc. 2002 Conference on Water Resources Planning and Management, EWRI, 10 pp. Roanoke, VA.
Tsai, C. W.-S. (2002). “Spatio-temporal structure of long water wave propagation in channel flow.” Proc., 15th Engineering Mechanics Division Conference 2002, ASCE, 8 pp. New York City, NY
Guo, Y., Tsai, W.-S., and Demissie, M. (2001). “Accuracy and precision of nitrate load estimation with different sampling frequencies for Illinois agricultural watersheds”, World Water and Environmental Resources Congress, ASCE, 10pp. Orlando, Florida.
Tsai, C. W.-S. (2000). “Uncertainty analysis of flood wave propagation”, Proc., 8th IAHR International Symposium on Stochastic Hydraulics ISSH 2000, 647-655, Beijing, China.
Tsai, W.-S. (1999). “Investigation of channel cross sectional geometry effects on shallow water wave propagation”, Proc., WaterPower'99 conference, ASCE, 10 pp, Las Vegas, Nevada

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Conference Presentations (abstracts)

Chen, Y. F. and Tasi C.W. (2025). European Heatwave Patterns and Forcing: An EOF–ICEEMDAN Perspective. KKHTCNN, December 2-5 2025, Clear Water Bay, Hong Kong
Cheng, J. A. and Tasi C.W. (2025). Wind Speed Prediction Using Multivariate Variational Mode Decomposition with Graph Neural Networks for Extreme Storm Events in Taiwan. KKHTCNN, December 2-5 2025, Clear Water Bay, Hong Kong
Wilianto, B. J. and Tasi C.W. (2025). Identification and Interpretation of Hydrometeorological Determinants of Traffic Accidents Through ICEEMDAN-TDIC Analysis: A Case Study in Taipei. KKHTCNN, December 2-5 2025, Clear Water Bay, Hong Kong
Wu, H. H. and Tasi C.W. (2025). Coupling Fractional Entropy and Stochastic Particle Tracking to Quantify Anomalous Diffusion in Suspended Sediment Transport. KKHTCNN, December 2-5 2025, Clear Water Bay, Hong Kong
Hossain, S. & Tsai, C. W. (2025). Dispersion dynamics of reactive solutes in tidal wetlands under pulsatile wind conditions (No. EGU25-17391). Copernicus Meetings.
Shen, S. W., & Tsai, C. W. (2025). Proposing Stochastic Turbulent Diffusivity from Diffusing Diffusivity with Fractional Ornstein–Uhlenbeck Process and Fractional Brownian Motion (No. EGU25-16285). Copernicus Meetings.
Tsai, C.W. (2025). Lagrangian Stochastic Sediment Dynamics in Turbulent Flows. (No. EGU25-19574). Copernicus Meetings.
Yao, S. T., & Tsai, C. W. (2025). Analyzing the Environmental Impact of Thermal Power Plants on Air Pollution across Taiwan. (No. EGU25-16683). Copernicus Meetings.
Chen, H. Q., & Tsai, C. (2025). Two-Particle Stochastic Model for Suspended Sediment Transport Using Spatial Relationship with Particles (No. EGU25-15745). Copernicus Meetings.
Tsai, C.W. (2025). Suspended Sediment Transport Models: A Multivariate Lagrangian Stochastic Process. ASCE-EWRI Congress, Anchorage, Alaska, USA, May 18-21, 2025.
Tsai, C. W., Tung, J. Y. J., & Hastanjaya, R. (2025, January). Spatiotemporal Analysis of Californ.ia Wildfires: Trends, Variability, and Meteorological Correlations. In 105th Annual AMS Meeting 2025 (Vol. 105, p. 458059).
Chen, H.Q. and Tsai C.W (2024). The Two-Particle Stochastic Model of Relative Dispersion in Isotropic Turbulence for Suspended Sediment Transport. KKHTCNN, November 20-22 2024, Shanghai, China
Yao, S.T. and Tasi C.W. (2024). Carbon Footprint of Water Consumption in a Changing Climate. KKHTCNN, November 20-22 2024, Shanghai, China
Shen, S.W. and Tsai, C.W. (2024). Fractional Stochastic Particle Tracking Model with Long-term Memory: A Numerical Investigation on Differentiable Probabilistic Trajectories Achieved by Malliavin-calculus-based Fractional Brownian Motion (fBm), EWRI 2024; May 19-22 2024, Milwaukee, WI, USA.
Tsai C.W. and Tung, J. Y, (2024). Spatiotemporal Analysis of Wildfire Trends and Variability in California. JSM, August 3-8, 2024, Portland, Oregon, USA.
Tsai, C.W., Chiu, Y.K., Fu, C.H., and Hsu, Y.W. (2024). Sustainable Water Consumption Strategies in a Changing Climate. EGU, April 14-19 2024, Vienna, Austria, EGU24-17003.
Chang, C.H. and Tsai, C.W. (2024). Developing an Impulse-Based Intermittent Particle Entrainment Mechanism in Turbulent Flows Using a Multivariate Random Process. EGU, April 14-19 2024, Vienna, Austria, EGU24-17368.
Peng, C. Y. and Tsai, C.W. (2024). A Lagrangian Stochastic Approach with Embedded Ornstein-Uhlenbeck Processes for Suspended Sediment Transport. EGU, April 14-19 2024, Vienna, Austria, EGU24-19408.
Fu, C.H, and Tsai, C.W. (2024). Impact of Marine Heatwaves on Ocean Carbon Sink: A Case Study of Coastal Areas in California, USA. EGU, April 14-19 2024, Vienna, Austria, EGU24-16628.
Tung, J.Y. and Tsai, C.W. (2024).Quantifying the Influence of Meteorological Factors on Wildfire Occurrences and Impacts in Diverse Californian Climates, American Meteorological Society's 12th Symposium on the Weather, Water, and Climate Enterprise, AMS Annual Meeting, January 28 - February 1, 2024, Baltimore, MD, USA.
Stanley, W. Shen. and Tsai, C.W. (2023). Investigating suspended sediment embedded with long-term dependency by Fractional Stochastic Diffusion Particle Tracking Model (FSDPTM) with Malliavin-calculus-based fractional Brownian motion(fBm), AGU Fall Meeting; December 11-15 2023, San Francisco, CL. Abstract ID: 1373365.
Chang, P.C. and Tsai, C.W. (2023). Integrating Work-Based Impulse Entrainment Criteria into Stochastic Modeling for Bed Load Particle Tracking. KKHTCNN, November 23-25 2023, Pattaya, Thailand. (Best Presentation Award)
Fu, C.H. and Tsai, C.W. (2023). Impact of Marine Heatwaves on Ocean Carbon Sink in the Coastal Area of California. KKHTCNN, November 23-25 2023, Pattaya, Thailand.
Peng, Y.Y. and Tsai, C.W. (2023). Development of differentiable types of the Langevin equation for suspended sediment transport. KKHTCNN, November 23-25 2023, Pattaya, Thailand.
Kumbhakar, M. and Tsai, C.W. (2023).. Stochastic Suspended Sediment Dynamics Using Reflected Stochastic Differential Equation. KKHTCNN, November 23-25 2023, Pattaya, Thailand.
Mohan, S. and Tsai, C.W. (2023). Entropy-Based Analysis of Nonuniform Suspended Sediment Transport. KKHTCNN, November 23-25 2023, Pattaya, Thailand.
Lin, S.W. and Tsai, C.W. (2023). Impact of Turbulence Energy Cascade Process and Eddy Intermittency on Suspended Sediment Particle in Open Channel Flow. EGU, April 23-28 2023, Vienna, Austria. HS9.1
Shen, W.M and Tsai, C.W. (2023). Incorporating the resuspension mechanism into suspended sediment particle tracking by fractional Brownian Motion with Malliavin calculus. EGU, April 23-28 2023, Vienna, Austria. HS9.3.
Tsai, C.W. and Wu, M,J. (2023). Stochastic Modeling for Anomalous Suspended Sediment Transport. EGU, April 23-28 2023, Vienna, Austria. GM3.4.
Tsai, C.W., Lin, M.-L., and Tung, J.-J. (2023). Identification of Spatio-Temporal Trend and Variability of Temperature Extremes in Taiwan. 103rd AMS annual meeting, January 8-12 2023, Denver, CO. 10B.5
Tung, Y.-J and Tsai, C. W. (2022): Spatiotemporal Analysis of the Influential Factors and Potential Harms of Wildfire in Taiwan, AGU Fall Meeting; 2022 December 12-16; Chicago, IL. Abstract ID: 1192833.
Chiu, Yu-Kai and Tsai, C. W. (2022): Investigation into the correlations of meteorological factors, acid rain compositions, and GHGs by EMD-based algorithm to achieve carbon neutrality in Taiwan, AGU Fall Meeting; 2022 December 12-16; Chicago, IL. Abstract ID: 1193123.
Shen, Stanley W. and Tsai, C. W. (2022): Path-dependent stochastic sediment particle transport analysis: Application Malliavin calculus to resuspension mechanism, Singapore, KKHTCNN 2022, National University of Singapore, Singapore, 17-19 November 2022, H-2. (Best Presentation Award)
Lin, S.-W. and Tsai, C. W. (2022): Simulation of Stochastic Sediment Transport Considering the influence of Energy Cascade Process and Intermittency Singapore, KKHTCNN 2022, National University of Singapore, Singapore, 17-19 November 2022, H-1.
Chiu, Yu-Kai and Tsai, C. W. (2022): Carbon Footprint of Water Consumption in a Changing Climate, Singapore, KKHTCNN 2022, National University of Singapore, Singapore, 17-19 November 2022, CNS-3.
Tung, Y.-J. and Tsai, C. W. (2022): Spatiotemporal Analysis of the Causes and Effects of Wildfire by Landsat Imagery and in situ Data: Case studies of Taiwan and California, USA, EGU General Assembly 2022, online, 23–27 May 2022, EGU22-6999, https://doi.org/10.5194/egusphere-egu22-6999, 2022.
Wu, M. J. and Tsai, C. W. (2022): Stochastic sediment transport modeling under the effects of intermittency and anisotropy of turbulent flow, EGU General Assembly 2022, online, 23–27 May 2022, EGU22-7008, https://doi.org/10.5194/egusphere-egu22-7008, 2022.
Chen, C.-K. and Tsai, C. W.: Aeolian River Dust in Central and Southern Taiwan Rivers: Spatial-Temporal Characterization and Public Health Implication, EGU General Assembly 2022, online, 23–27 May 2022, EGU22-7031, https://doi.org/10.5194/egusphere-egu22-7031, 2022.
Hung, S. Y., & Tsai, C. W. (2022). Stochastic Suspended Sediment Transport with Memories. 14th ICHE World Congress 2019, Izmir, Turkey, 26-27 May, 2022.
Hung, S. Y., & Tsai, C. W. (2021). ‘Stochastic Sediment Transport with Memories’ Proceedings, 2021 World Water and Environmental Resources Virtual Congress, Jun 07-12, Online.
Tsai, C. and Wu, K.-T. (2021): Characterization of Geometrical and Temporal Properties of Large-scale Motions in Turbulent Flows, EGU General Assembly 2021, online, 19–30 Apr 2021, EGU21-14221, https://doi.org/10.5194/egusphereegu21-14221, 2021.
Liu, W.-J. and Tsai, C. W. (2021): Incorporating Backward-forward Stochastic Particle Tracking Model into the EFDC model for Probable Sedimentation Source identification in Typhoon events, EGU General Assembly 2021, online, 19–30 Apr 2021, EGU21-11346, https://doi.org/10.5194/egusphere-egu21-11346, 2021.
Huang, Y.-Y. and Tsai, C. W. (2021): Modeling of Lagrangian particles in turbulence boundary layer considering attached eddies: particle trajectories and concentration profiles, EGU General Assembly 2021, online, 19–30 Apr 2021, EGU21-9960, https://doi.org/10.5194/egusphere-egu21-9960, 2021.
Tang, C.-H. and Tsai, C. W. (2021): Spatiotemporal Trend and Variability of Precipitation in Taiwan Based on Multi-dimensional Ensemble Empirical Mode Decomposition (MEEMD), EGU General Assembly 2021, online, 19–30 Apr 2021, EGU21-10609, https://doi.org/10.5194/egusphere-egu21-10609, 2021.
Hester, E.T.*, D.T. Scott, D.L. Azinheira, K.E. Brooks, M. Calfe, C. Guth, B. Hammond, A.Y. Lin, and C.W. Tsai. (2020). Can stream and river restoration solve the excess nitrogen problem? River Flow 2020, Delft, Netherlands. July 8, 2020.
Tsai, C. W.*, Wu, K-T, and Huang, C-H. (2020). ”Beyond Normality: Estimation of Near-Bed Sediment Concentrations Accounting for Asymmetric Distribution and Spatial Influence of Turbulence Coherent Structures” 2020 JpGU-AGU Joint Meeting, Abstract C000762, May 24-28, 2020, Chiba, Japan.
Tsai, C.W.* and Wu, K.-T. (2020). “Beyond Normality: Estimation of Near-Bed Sediment Concentrations Accounting for Asymmetric Distribution and Spatial Influence of Turbulence Coherent Structures” EGU General Assembly, May 4-8, 2020, Abstract EGU2020-21416, Vienna, Austria.
Tsai, C.W.* and Huang, C.H. (2020). “Improved Point Estimates of Probabilistic Moments for Non-Gaussian Multivariate Environmental Modeling and Uncertainty Analysis” the AMS 100th American Meteorological Society Annual Meeting, January 12-16, 2020, Boston, M.A., Abstract ID: 370283
Tsai, C.W.* and Huang, S.H. (2019) “On the Memory Effect of Sediment Particles in Turbulence Structures” In: AGU Fall Meeting; 2019 December 9-13; San Francisco, CA. Abstract ID: 511955.
Lin, M.L., and Tsai, C.W.* (2019) “Evolution of Air Temperature and Multiscale Characterization of Greenhouse Gases in Taiwan based on Multi-dimensional Ensemble Empirical Mode Decomposition and Noise-assisted Multivariate Empirical Mode Decomposition”. In: AGU Fall Meeting; 2019 December 9-13; San Francisco, CA. Abstract ID: 541291.
Wu, K.T., and Tsai, C. W.* (2019) “Improvement of Suspended Sediment Transport Analysis Considering the Spatial Influence of Turbulence Ejection”. In: AGU Fall Meeting; 2019 December 9-13; San Francisco, CA. Abstract ID: 540456.
Chiang, C.H., and Tsai, C.W.* (2019) “Using EFDC hydrodynamic and water quality model for eutrophication prediction in Xindian River in Taiwan”. In: AGU Fall Meeting; 2019 December 9-13; San Francisco, CA. Abstract ID: 500822.
Hung, S. Y. & Tsai, C. W.* (2019) “Stochastic Sediment Transport with Memories”, The Thirty-Second KKHTCNN Symposium on Civil Engineering, October 24-26, 2019, Daejeon, Korea
Hung, S. Y. & Tsai, C. W.* (2019) “Stochastic Sediment Transport In Time Persistent Flow Events”, The Thirty-Eighth IAHR World Congress, September 1-6, 2019, Panama City, Panama
Tsai, C. and Hung, S.H.* (2019). “On the Memory Effect of Sediment Particle Movement in Turbulent Flows by A Random Time Interval Brownian Motion (RTIB) Model”, 41st Stochastic Processes Conference, July 8-12, Evanston, IL.
Hester, E.T.*, A.Y-C. Lin, and C.W. Tsai. 2019. Effect of floodplain restoration on removal of nitrate and pharmaceuticals: anaerobic and photolytic processes. World Environmental and Water Resources Congress (American Society of Civil Engineers, Environmental and Water Resources Institute), Pittsburgh, PA. April 22, 2019.
Tsai, C.* and Huang, S.H. (2019). “Development of A Stochastic Jump Diffusion particle Tracking Model for Sediment Transport”, Proceedings, 2019 World Water and Environmental Resources Congress, May 19-23, Pittsburg, PA.
Huang, C.H. and Tsai, C.* (2019). “Uncertainty Analysis for Geological Drilling Data and development of Probabilistic Soil Liquefaction Potential Mapping”, Proceedings, 2019 World Water and Environmental Resources Congress, May 19-23, Pittsburg, PA.
Ahammed, F.*, Hewa, G. A., Argue, J. R. & Tsai, C. W. (2019). ICSM – a new stormwater management strategy to support the structural growth of developing countries in Asia. Proceedings of the World Environmental and Water Resources Congress, The American Society of Civil Engineers, pp: 80 - 92.
Tsai, C.* and Hsiao, Y.-R. (2019). “Characterization of Air Quality and Hydro-Meteorological Factors based on Noise-assisted Empirical Mode Decomposition (NAMEMD) and Time-dependent Intrinsic Correlation (TDIC)”, EGU General Assembly, Abstract 2019-11791, Vienna, Austria.
Huang, C. H. and Tsai, C.* (2019). “Uncertainty Analysis for Geological Drilling Data and Development of Probabilistic Soil Liquefaction Potential Mapping”, EGU General Assembly, Abstract 2019-7559, Vienna, Austria.
Hung, S. Y. & Tsai, C. W.* (2018) “Stochastic Sediment Transport: Incorporation of Time-step Independent Resuspension Mechanism into Stochastic Diffusion Particle Tracking Model.”, The Thirty-First KKHTCNN Symposium on Civil Engineering, November 22-24, 2018, Kyoto, Japan
S. M. Mousavi, and C. W. Tsai,* (2018).“Can a Stochastic ParticleTracking Model (PTM) Predict the Trajectory of a Fluid Particle in Water Waves?”, The Thirty-First KKHTCNN Symposium on Civil Engineering, Kyoto, Japan, November 22-24.
Mousavi, S. M. and Tsai, C. W.* (2018). “Localized Radial Basis Functions (LRBF) solution of the two-dimensional Fokker-Plank equation” 15th EGU General Assembly, Abstract 2018-11557, Vienna, Austria, April 9-13.
Tsai, C. W.* and Huang, C. H. (2018). “Assessment of Sediment Concentrations Accounting for Turbulence and Random Particle Alignment” 15th EGU General Assembly, Abstract 2018-16381, Vienna, Austria, April 9-13.
Hung, S. Y. and Tsai, C. W.* (2018). “Anomalous Diffusions of Suspended Sediment Transport by Two-particle Stochastic Diffusion Particle Tracking Model” 15th EGU General Assembly, Abstract 2018-8684, Vienna, Austria, April 9-13.
Tsai, C. W.*, Yeh, J. J. and Hung, S. Y. (2017), Development of Probabilistic Flood Inundation Mapping for Flooding Induced by Dam Failure, Abstract H31A-1490 presented at 2017 Fall Meeting, AGU, New Orleans, LA, 11-15 Dec.
Huang, S. S. and Tsai, C. W.* (2017), The Influence of Turbulent Coherent Structure on Suspended Sediment Transport, Abstract EP13B-1611 presented at 2017 Fall Meeting, AGU, New Orleans, LA, 11-15 Dec.
Kao, D. and Tsai, C. W.* (2017), Uncertainty quantification of water quality in Xindian Creek in Taiwan, Abstract H31H-1602 presented at 2017 Fall Meeting, AGU, New Orleans, LA, 11-15 Dec.
Hsiao, Y. R. and Tsai, C. W.* (2017), Multiscale Characterization of PM2.5 in Southern Taiwan based on Noise-assisted Multivariate Empirical Mode Decomposition and Time-dependent Intrinsic Correlation, Abstract A41D-2312 presented at 2017 Fall Meeting, AGU, New Orleans, LA, 11-15 Dec.
Hung, S. Y., Wu, T.-H. and Tsai, C.* (2017). “Normal and anomalous diffusion in suspended sediment particles in open channel flow”, Proceedings, 2017 World Water and Environmental Resources Congress, May 22-25, Sacramento, CA.
Huang, C.H., and Tsai, C.* (2017). “Estimation of near-bed sediment concentrations by the Lagevin equation using an improved statistical distribution of particle displacement” Proceedings, 2017 World Water and Environmental Resources Congress, May 22-25, Sacramento, CA.
Tsai, C. W.* and Yeh, T-G (2017). “Evaluation of Hydrologic and Meteorological Impacts on Dengue Fever Incidences in Southern Taiwan using Time- Frequency Method” 14th EGU General Assembly, Abstract 2017-19159, Vienna, Austria, April 24-28.
Huang, C.H. and Tsai, C.* (2016). “Modeling turbidity currents using the multiple-state discrete-time Markov chains.” Proc., The 12th International Conference on Hydro-science and Engineering, November 7-10, Tinan, Taiwan.
Hung, S.Y. and Tsai, C.* (2016). “Application of Batch Poisson process to random-sized batch arrivals of sediment particles.” Proc., The 12th International Conference on Hydro-science and Engineering, November 7-10, Tinan, Taiwan.
Mousavi, S. M., Tsai, C.* and Young, D.L. (2016). “Comparison of Localized Radial Basis Functions (LRBF) solution of the two-dimensional advection-diffusion equation to the Finite difference methods (FDMs).” Proc., The 12th International Conference on Hydro-science and Engineering, November 7-10, Tinan, Taiwan.
Tsai, C.* and Hung, S. Y. (2016). “Evaluation of potential climate change effects on particle movement in surface water”, Proceedings, 2016 World Water and Environmental Resources Congress, May 17-21, West Palm Beach, FL.
Liu, C.H., and Tsai, C.* (2016). “Application of a Gambler’s ruin model to uncertainty assessment of reservoir sedimentation problems” Proceedings, 2016 World Water and Environmental Resources Congress, May 17-21, West Palm Beach, FL.
Tsai, C. W.* and Wu, N.K. (2015). “A multi-state Markov chain model for suspended sediment concentrations” 12th EGU General Assembly, Abstract 2015-10295, Vienna, Austria.
Liu, C. C. # and Tsai, C.W.* (2015). “Identifying the trend of the morphological change of a natural river using the Hilbert Huang Transform (HHT) method.” 12thEGU General Assembly, Abstract 2015-13287, Vienna, Austria.
Tsai, C. W., Lin, E. Y. and Hung, S. Y. (2014). “Application of a physically based stochastic approaches to evaluate particle movement uncertainty in open channel flow.” Eos Trans. AGU, 90(52) , Fall Meet. Suppl., Abstract H11G-0949.
Lin, E.Y., Tsai, C.W. and Hung, S.Y. (2014). “Evaluation of potential climate change impacts on particle movement in open channel flow.” Eos Trans. AGU, 90(52) , Fall Meet. Suppl., Abstract GC41D-0612.
Tsai, C. W., Lai, K.C. and Wu, N.K. (2013). “Application of Gambler’s Ruin Model to Sediment Transport Problems” Eos Trans. AGU, 90(52) , Fall Meet. Suppl., Abstract H21H-1165.
Tsai, C. W. and Yang, Fu-Ning (2011). “Stochastic Modeling Of Bedload Transport By The Continuous-Time Markov Chain Process.” Eos Trans. AGU, 90(52), Fall Meet. Suppl., Abstract H34C-07.
Oh, J.S. and Tsai, C. W. (2009). “Probabilistic analysis of particle deposition and resuspension in open channel flows.” Eos Trans. AGU, 90(52), Fall Meet. Suppl., Abstract H23D-0992.
Tsai, C.W. and Kuai, K. Z. (2009). “Development of a stochastic bedload transport model.” Eos Trans. AGU, 90(52) , Fall Meet. Suppl., Abstract H41B-0882.
Oh, J.S. and Tsai, C.W. (2009). “Sediment particle movement in open channel flows using a stochastic jump diffusion particle tracking model.” Eos Trans. AGU, 90(22) , Jt. Assem. Suppl., Abstract H71A-07.
Kuai, K.Z. and Tsai, C.W. (2009). “Stochastic modeling of non-equilibrium bedload transport.” Eos Trans. AGU, 90(22) , Jt. Assem. Suppl., Abstract H71A-06.
Tsai, C., Kuai, K. Z., Bursik, M. and Hess, D (2004). “Nonlinear modeling of dam-break induced sediment transport and morphological evolutions in alluvial rivers.” AGU 2004 Fall meeting, San Francisco, CA.
Franceschini, S. and Tsai, C. (2003). “Uncertainty analysis of modeled toxic concentrations in the Niagara River.” Great Lakes Research Consortium, Syracuse, NY.
Tsai, C. W.-S. and Franceschini, S.,(2003) “Modeling of fate and transport of contaminants in natural surface waters under uncertainty.” 2003 EGS-AGU-EUG Assembly, Nice, France.
Tsai, C. W.-S. and Franceschini, S.,(2002) “Uncertainty analysis using an Improved Point Estimate method.” AGU 2002 Fall meeting, San Francisco, CA.
Tsai, C. W.-S. (1998). “Applicability of artificial neural network on watershed hydrology”, Proc., Western Pacific Geophysics meeting 98, pp.27, Taipei, Taiwan, American Geophysical Union.
Tsai, C. W.-S. (1998). “Effects of channel cross-sectional geometry on flood wave propagation”, Proc., pp. 32, Environmental Horizons 98, University of Illinois at Urbana-Champaign, Illinois.

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Technical Reports and Theses

Bhowmik, N., Tsai, C. W.-S., Parmar, P. and Demissie, M. (2004). “HEC-6 Modeling of the Main Stem of the Kankakee River in Illinois from the Stateline Bridge to the Kankakee Dam” Rept. , Illinois State Water Survey, ISWS, CR 2004-4.
Tsai, C. W.-S. (2001). Shallow Water Wave Propagation in Open Channel Flow. Ph.D. Dissertation, University of Illinois at Urbana-Champaign
Tsai, W.-S. (1995). Water quality control and prediction: A Case study on Wu Creek. B.S. Thesis, National Taiwan University, Taiwan.
Kuo, J.T., Kuo, Y.C., Lin, Y. and Tsai, W.-S. (1994). “Water quality control and prediction: A Case study on Wu Creek”, Rept. EPA, Taiwan.

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