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Tsai, Ching-Piao Vice President /Distinguished Professor
Title
Vice President /Distinguished Professor
TEL
(04) 2284-0437 ext. 259
E-Mail
Office
Room 313,Civil & Environmental Engineering Building
Record
Ph.D.(1988), National Cheng-Kung Univ., Taiwan
Web site
Experience
Professor, Department of Civil Engineering, National Chung Hsing University
Secretary-General, National Chung Hsing University
Vice Dean, College of Engineering, National Chung Hsing University
Fellow, The Institution of Engineering and Technology (IET)
Fellow, Chinese Institute of Civil and Hydraulic Engineering
President, Taiwan Society of Ocean Engineering
Chairman of Ocean Engineering Committee, Chinese Institute of Civil and Hydraulic Engineering
Chairman of Taichung Branch, Chinese Institute of Engineers
Editor-in-Chief, Journal of Coastal and Ocean Engineering
Excutive Editor, Journal of Engineering, National Chung Hsing University
Secretary-General, National Chung Hsing University
Vice Dean, College of Engineering, National Chung Hsing University
Fellow, The Institution of Engineering and Technology (IET)
Fellow, Chinese Institute of Civil and Hydraulic Engineering
President, Taiwan Society of Ocean Engineering
Chairman of Ocean Engineering Committee, Chinese Institute of Civil and Hydraulic Engineering
Chairman of Taichung Branch, Chinese Institute of Engineers
Editor-in-Chief, Journal of Coastal and Ocean Engineering
Excutive Editor, Journal of Engineering, National Chung Hsing University
Research Areas
Coastal hydrodynamic computation and experiment, coastal engineering and environment, coastal development and conservation, marine energy development technology, engineering applications of artificial intelligence
Awards
Courses
- 下學期
- Coastal Engineering and Sustainability
- Credit:3
- Class:Undergraduate Programs
Selected Publications
● Referred Papers
1.
Tsai, C.P.*, Ko, C.-H., Shih, H.C., Chen, Y.H., Chen, Y.-C., “Comparative Study of Wave Height Transformation: Bragg Reflection versus Wave Breaking at Submerged Rectangular Breakwaters,” Ocean Engineering, vol. 299, pp. 117277, doi.https://doi.org/10.1016/j.oceaneng., 03 2024. (SCI)
2.
Tsai Y-T, Tsai C-P., “Predictions of Wave Overtopping Using Deep Learning Neural Networks,” Journal of Marine Science and Engineering, vol. 11, no. 10, 1925, doi. https://doi.org/10.3390/jmse111019, 10 2023. (SCI)
3.
Tsai, C.-P.; Chen, Y.-C.; Ko, C.-H., “Prediction of Bay-Shaped Shorelines between Detached Breakwaters with Various Gap Spacings,” Sustainability, vol. 15, pp. 6218, doi.https://doi.org/10.3390/su15076218, 04 2023. (SCI、SSCI)
4.
Tsai, C.P., Ye, J.H., Ko, C.H. and Lin, Y.R., “An Experimental Investigation of Microbial-Induced Carbonate Precipitation on Mitigating Beach Erosion ,” Sustainability, vol. 14, no. 2513, doi.https://doi.org/10.3390/su14052513, 02 2022. (SCI、SSCI)
5.
Tsai, C.P., Ko, C.H., Chen, Y.C., Chang, W.C., Lai, K.L., Lin, C.W., “The Experimental Investigation on Breakwater-Integrated Wave Energy Converter at Taichung Harbor,” Monthly Journal of Taipower's Engineering , vol. 875, pp. 1-13, 07 2021.
6.
Lin, C., Wong, W.-Y., Raikar, R.V., Hwung, H.-H. and Tsai, C.-P., “Characteristics of Accelerations and Pressure Gradient during Run-Down of Solitary Wave over Very Steep Beach: A Case Study,” Water, vol. 11, no. 523, 03 2019. (SCI)
7.
Tsai, C.P., Ko, C.H. and Chen, Y.C., “Investigation on Performance of a Modified Breakwater-Integrated OWC Wave Energy Converter,” Sustainability, vol. 10, no. 3, pp. 643, doi.10.3390/su10030643, 02 2018. (SCI、SSCI)
8.
Lin, C., Wong, W.-Y., Kao, M.-J., Tsai, C.-P., Hwung, H.-H., Wu, Y.-T. and Raikar, R.V., “Evolution of Velocity Field and Vortex Structure during Run-Down of Solitary Wave over Very Steep Beach,” Water, vol. 10, no. 1713, 01 2018. (SCI)
9.
Tsai, C.P., Kuo, K.W., Yeh, P.H. and Chen, H.B., “Bragg reflection of waves by slope sandy rippled bed and its induced soil response,” Ocean Engineering, vol. 143, pp. 186-197, doi.10.1016/j.oceaneng.201, 08 2017. (SCI)
10.
Tsai, C.P., Chen, Y.C., Sihombingand, T.O. and Lin, C., “Simulations of Moving Effect of Coastal Vegetation on Tsunami Damping,” Natural Hazards and Earth System Sciences, vol. 17, pp. 693–702, doi.10.5194/nhess-17-693-2017, 05 2017. (SCI) 
11.
Tsai, C.P.*, Chen, Y.C., Chen, C.J., and Lin, C., “Simulation of the Effect of Breakwater on the Propagation of Solitary Waves,” Journal of Marine Science and Technology, vol. 24, no. 4, pp. 780-789, 08 2016. (SCI)
12.
Tsai, C.P.*, Daemrich, K.F., and Ho, C.L., “Probability Calculation Method with Neural Network for Estimating Wave Overtopping at Coastal Structures: Learning from Regular Wave Tests,” Journal of Marine Science and Technology, vol. 24, no. 3, pp. 449-457, 06 2016. (SCI)
13.
Lin, C., Yu, S.M., Yeh, P.H., Yu, M.S., Tsai, C.P.*, Hsieh, S.H., Kao, M.J., Tzeng, G.W. and Raikar, R., “Characteristics of boundary layer flow induced by solitary wave propagating over horizontal bottom,” Journal of Marine Science and Technology, vol. 23, no. 6, pp. 909-922, 12 2015. (SCI)
14.
Tsai, C.P. and You, C. Y., “Development of models for maximum and time variation of storm surges at the Tanshui estuary,” Natural Hazards and Earth System Sciences, vol. 14(9), pp. 2313-2653. doi:10.5194/nhess-1, 09 2014. (SCI)
15.
Tsai, C.P., Yen, C.C. and Lin, C., “Simulations on Skimming Flow over a Vertical Drop Pool,” Journal of Engineering Mechanics, ASCE. DOI: 10.1061/(ASCE)EM.1943-7889.0000751., 07 2014. (SCI)
16.
Tsai, C.P., Chen, H.B. and Hsu, J.R.C. , “Second-order time-dependent mild-slope equation for wave transformation ,” Mathematical Problems in Engineering , vol. 2014, pp. . http://dx.doi.org/10.1155/20, 05 2014. (SCI)
17.
Lin, C., Yeh, P.H., Kao, M.J., Yu, M.H., Hsieh, S.H., Chang, S.H., Wu, T.R. and Tsai, C.P., “Velocity Fields inside Near-Bottom and Boundary Layer Flow in Prebreaking Zone of Solitary Wave Propagating over 1:10 Slope,” Journal of Waterway, Port, Coastal and Ocean Engineering, pp. 04014038-1~30, 03 2014. (SCI)
18.
Lin, C., Yeh, P.H., Hsieh, S.H., Shih, Y.N., Lo, L.F. and Tsai, C.P. , “Prebreaking internal velocity field induced by a solitary wave propagating over a 1:10 slope,” Ocean Engineering, vol. 80, pp. 1-12, 01 2014. (SCI)
19.
Tsai, C.P.*, Yu, C.H., Chen, H.B. and Chen, H.Y., “Wave Height Transformation and Set-Up between a Submerged Permeable Breakwater and a Seawall,” China Ocean Engineering,, vol. 26, no. 1, pp. 167-176, 2012. (SCI)
20.
Tsai, C.P., Huang, C.H., Chien, H., Cheng, H.Y. and Lee, W.C., “Study on the wave climate variation to the renewable wave energy assessment,” Renewable Energy, vol. 38, no. 1, pp. 50-61, 2012. (SCI)
21.
Chen, H.B. and Tsai, C.P.*, “Computations of nearshore wave transformation using finite-volume method,” Applied Ocean Research, vol. 38, pp. 32-39, 2012. (SCI)
22.
Tsai, C.P., Wang, P.T., Lin J.C., Chen, C.C. and Wang, J.C., “Wave and flow characteristics on breakwater with trapezoidal wave- chamber,” Journal of Coastal and Ocean Engineering, vol. 11, no. 1, pp. 57-70, 2011.
23.
Lin, C., Hsieh, S. C., Koa, M. J., Lo, L.F., Yu, M.H., Shih, Y.N., and Tsai, C.P., “Study of multi-hazard to cross-river bridges in Gaopin River Basin during typhoon Morakot,” Sino-Geotechnics, pp. 7-16, 2011.
24.
Tsai, C.P.*, Chen, H.B. and Jeng, D.S., “Wave attenuation over a rigid porous medium on a sandy seabed,” Journal of Engineering Mechanics, ASCE, vol. 11, no. 135, pp. 1295-1304, 2009. (JCR)
25.
Tsai, C.P.*, Chen, H.B. and You, S.S., “Toe Scour of Seawall on a Steep Seabed by Breaking Waves,” Journal of Waterway, Port, Coastal and Ocean Engineering, ASCE, vol. 2, no. 135, pp. 61-68, 2009. (JCR)
26.
Lee, T.L., Tsai, C.P.*, Lin, H.M., Fang, C.J., “A Combined Thermography Analysis-Neural Network Methodology for Eroded Caves behind Seawall,” Ocean Engineering, vol. 15, no. 36, pp. 1251-1257, 2009. (JCR)
27.
Hsu, J.R.C.*, Benedet, L., Klein, A.F., Raabe, A.L., Tsai, C.P. and Hsu, T.W., “Appreciation of Static Bay Beach Concept for Coastal Management and Protection,” Journal of Coastal Research, vol. 1, no. 24, pp. 98-215, 2008. (JCR)
28.
Chen, H.B., Tsai, C.P.* and Jeng, C.C., “Wave transformation between submerged breakwater and seawall,” Journal of Coastal Research,SI 50, pp. 1069-1074, 2007. (JCR)
29.
Tsai, C.P.*, Chen, H.B. and Lee, F.C., “Wave Transformation over Submerged Permeable Breakwater on Porous Bottom,” Ocean Engineering, no. 33, Nos. 11-12, pp. 1623-1643., 2006. (JCR)
30.
Chen, H.B.*, Tsai, C.P. and Chiu, J.R., “Wave Reflection from Vertical Breakwater with Porous Structure,” Ocean Engineering, no. 33, Nos. 13, pp. 1705-1717, 2006. (JCR)
31.
Tsai, C.P., Chen, H.B., Hwung, H.H. and Hwuang, M.J. , “Examination of Empirical Formulas for Wave Shoaling and Breaking on Steep Slopes ,” Ocean Engineering , vol. 3-4, no. 32, pp. 469-483, 2005. (EI、JCR)
32.
Jeng, D.S. and Tsai, C.P. , “Comments of Standing wave pressures on walls by V. Prabhakar and V. Sundar ,” Ocean Engineering , vol. 7, no. 29, pp. 845-847, 2002. (EI、JCR)
33.
Lee, T.L., Tsai, C.P. and Jeng, D.S. , “Ocean Waves Propagating over a Porous Seabed of Finite Thickness ,” Ocean Engineering , vol. 12, no. 29, pp. 1577-1601, 2002. (EI、JCR)
34.
Lee, T.L., Tsai, C.P. and Jeng, D.S. , “Ocean Waves Propagating over A Coulomb-Damped Poroelastic Seabed of Finite Thickness: An Analytical Solution ,” Computers & Geotechnics , vol. 2, no. 29, pp. 119-149, 2002. (EI、JCR)
35.
Tsai, C.P., Lin, C. and Shen, J.N. , “Neural Network for Wave Forecasting among Multi-Stations ,” Ocean Engineering , vol. 13, no. 29, pp. 1683-1695, 2002. (EI、JCR)
36.
Tsai, C.P. and Lee, T.L. , “Back-propagation neural network in tidal-level forecasting ,” (Discussion) Journal of Waterway, Port, Coastal and Ocean Engineering, ASCE , vol. 4, no. 127, pp. 58-592, 2001. (EI、JCR)
37.
Lee, T.L. and Tsai, C.P. , “Water waves interaction with a Coulomb-Damped poroelastic seabed of finite thickness ,” Journal of Engineering, National Chung Hsing University , vol. 2, no. 12, pp. 71-84, 2001.
38.
Tsai, C.P., Chen, H.B. and Hsu, J.R.C. , “Calculations of wave transformation across the surf zone ,” Ocean Engineering , vol. 8, no. 28, pp. 941-955, 2001. (EI、JCR)
39.
Tsai, C.P., Lee, T.L. and Hsu, J.R.C. , “Effect of wave non-linearity on the standing-wave- induced seabed response ,” International Journal for Numerical and Analytical Methods in Geomechanics , no. 24, pp. 869-892, 2000. (EI、JCR)
40.
Tsai, C.P., Lee, T.L. and Chu, L.H. , “Forecasting of wave time series using back0propagation neural network ,” Journal of the Chinese Institute of Civil and Hydraulic Engineering , vol. 3, no. 11, pp. 175-182, 1999.
41.
Tsai, C.P., Lee, T.L. and Yeh, P.O. , “Forces on breakwaters by standing waves with water overtopping ,” International Journal of Offshore and Polar Engineering, ISOPE , vol. 3, no. 9, pp. 182-187, 1999. (EI、JCR)
42.
Tsai, C.P. and Lee, T.L. , “Back-propagation neural network in tidal-level forecasting ,” Journal of Waterway, Port, Coastal and Ocean Engineering, ASCE , vol. 4, no. 125, pp. 195-202, 1999. (EI、JCR)
43.
Tsai, C.P., Wang, J.S. and Lin C. , “Down-rush flow from waves on sloping seawalls ,” Ocean Engineering , no. 25, pp. 295-308, 1998. (EI、JCR)
44.
Tsai, C.P., Chen, H.B. and Yang, L.D. , “Two-dimensional equilibrium profile in equilibrium bays ,” Journal of Harbor Technology , no. 12, pp. 39-56, 1997.
45.
Tsai, C.P. , “Wave-induced liquefaction potential in a porous seabed in front of a breakwater ,” Ocean Engineering , vol. 1, no. 22, pp. 1-18, 1995. (EI、JCR)
46.
Tsai, C.P. and Lee, T.L. , “Standing wave induced pore pressures in a porous seabed ,” Ocean Engineering , vol. 6, no. 22, pp. 505-517, 1995. (EI、JCR)
47.
Tsai, C.P. and Hsu, C.W. , “Wave characteristics from a horizontal plate fixed in front of a breakwater ,” Chinese Journal of Mechanics , vol. 4, no. 10, 1994.
48.
Tsai, C.P. , “Laminar boundary layer flows under action of waves in front of a breakwater ,” Journal of the Chinese Institute of Civil and Hydraulic Engineering , vol. 4, no. 6, pp. 433-443, 1994.
49.
Tsai, C.P. and Jeng, D.S , “Numerical Fourier solution of standing waves in finite water depth ,” Applied Ocean Research , vol. 3, no. 16, pp. 185-193, 1994. (EI、JCR)
50.
Tsai, C.P., Jeng, D.S. and Hsu, J.R.C. , “Computations of the almost highest short-crested waves in deep water ,” Applied Ocean Research , vol. 6, no. 16, pp. 317-326, 1994. (EI、JCR)
51.
Hsu, J.R.C., Jeng, D.S. and Tsai, C.P. , “Short-crested wave-induced soil response in a porous seabed of infinite thickness ,” no. 17, pp. 553-576, 1993. (EI、JCR)
52.
Tsai, C.P. and Jeng, D.S. , “A Fourier Approximation for Finite amplitude short-crested waves ,” Journal of the Chinese Institute of Engineers , vol. 6, no. 15, pp. 713-721, 1992. (EI)
53.
Tsai, C.P. and Hsu, C.W. , “Hydrodynamic pressure on a two-dimensional rigid dam ,” Chinese Journal of Mechanics , vol. 3, no. 7, pp. 197-204, 1991.
54.
Tsai, C.P., Chen, Y.Y., Tang, L.W. and Hwung, H.H. , “A new approach to nonlinear standing waves ,” Journal of the Chinese Institute of Engineers , vol. 3, no. 10, pp. 233-240, 1987. (EI)
● Seminar Papers
1.
Ko, C.H. and Tsai, C.P., “Study on berm deformation affected by submerged breakwater during storm wave,” The 37th Conference on Ocean Engineering in Taiwan, 11 2015.
2.
蔡清標、張耿綸, “波浪通過透水沙漣底床之變化及土壤反應研究,” 第37屆海洋工程研討會論文集, 11 2015.
3.
高明哲、林 呈、曾光偉、黃薇穎、蔡清標、James Yang、張國棟, “應用BIV與PIV於孤立波碎波水氣二相流流場之量測技術開發整合,” 第37屆海洋工程研討會論文集, 11 2015.
4.
Tsai, C.P., Chang, T.J. and Lin, C. , “Prediction of Scour Depth in front of Seawall Using Neural Network,” Proceedings of the Fifteenth International Conference on Civil, Structural and Environmental Engineering Computing, Civil-Comp Press, Stirlingshire, UK, 09 2015. (EI)
5.
Ko, C.H., Tsai, C.P. and Chen, Y.C., “Numerical Simulations of Wave and Flow Variations between Submerged Breakwaters and Slope Seawall,” The 25th International Offshore (Ocean) and Polar Engineering Conference, 06 2015. (EI)
6.
Lee, T. L., Huang, C. J., Tsai, C.P., Wen, C.C., and H.M. Lin, “Artificial Neural Network Apply to Predict the Sea-Level Change by using Satellite Data,” The 24th International Offshore (Ocean) and Polar Engineering Conference, 06 2015. (EI)
7.
蔡清標、陳盈圻、柯鈞瀚、張欽森, “孤立波作用下棧橋式碼頭之上揚力研究,” 第36屆海洋工程研討會論文集, pp. 251-256, 12 2014.
8.
Lee, T.L., Sung, Y.P., Huang, C.J., Tsai, C.P. and Wen, C.C., “The Sea-Level Predictions around Taiwan in 2030 using Artificial Neural Network,” The 23rd International Offshore (Ocean) and Polar Engineering Conference, 2013. Anchorage, USA,
9.
Tsai, C.P., and Lee, Y.T., “The Application of Neural Networks to Determine Wave Overtopping at Coastal Dikes,” The Third International Conference on Soft Computing Technology in Civil, Structural and Environmental Engineering, 2013. Civil-Comp Press, Stirlingshire, UK,
10.
Tsai, C.P., Teng, C.C., Tsai, C.H., “The Application of Neural Network to Predict Wind Waves,” Proceedings of the Eighth International Conference on Engineering Computational Technology, 2012. Civil-Comp Press, Stirlingshire, UK,
11.
Huang, C.H., Tsai, C.P. and Chien, H, “Statistical Analysis on the Extreme Events of Big Waves under Wave Climate Change around Taiwan Waters,” ASME 2011 30th International Conference on Ocean, Offshore and Arctic Engineering, 2011. Rotterdam,
12.
Tsai, C.P., Chen, H.B., Chen, H.Y. and Yu, C.H.,, “Wave Transformation between a Submerged Breakwater and a Seawall,” 20th International Offshore and Polar Engineering Conference, pp. 1017-1021, 2010. Beijing,
13.
Tsai, C.P., Hung, C.W., Chen, H.B., “Simulation of the Shoreline Change behind a Submerged Permeable Breakwater,” The Seventh International Conference on Engineering Computational Technology, vol. doi:10.4203/ccp.94.82, 2010. Civil-Comp Press, Stirlingshire, UK,
14.
Tsai, C.P., Lin, Y.J. and Hung, C.W., “Examination of Wave Pressures on Breakwater over Steep Beach,” 19th International Offshore and Polar Engineering Conference, pp. 1064-1068, 2009. Osaka,
15.
蔡清標、陳俊仁、陳盈圻, “防波堤高度對孤立波流場及溯升影響之數值模擬,” 第37屆海洋工程研討會論文集.
Research Project
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