Experimental Study for Overtopping Discharges of Sea Dike having Low Mound and High Wave Wall (LMHW)
Jae-Sang Jung, Jae-Seon Yoon
J Korean Soc Coast Ocean Eng. 2019;31(6):335-343. Published online 2019 Dec 31 DOI: https://doi.org/10.9765/KSCOE.2019.31.6.335
Citations to this article as recorded by 
Estimate of Wave Overtopping Rate on Armoured Slope Structures Using FUNWAVE-TVD Model
Moon Su Kwak
Journal of Korean Society of Coastal and Ocean Eng.2024; 36(1): 11. CrossRef
Hydraulic Model Experiments and Performance Analysis of Existing Empirical Formulas for Overtopping Discharge on Tetrapod Armored Rubble Mound Structures with Low Relative Freeboard
Sang-Woo Yoo, Jae-Young Kim, Do-Sam Kim, Kwang-Ho Lee
Journal of Korean Society of Coastal and Ocean Eng.2024; 36(3): 105. CrossRef
A Study on the Application of Low Crest Structures to Reduce Wave Overtopping
Kyu-Tae Shim, Kyu-Han Kim, Ki-Seock Cha
Journal of Korean Society of Coastal and Ocean Eng.2022; 34(6): 290. CrossRef
Estimation and Analysis of Wave Spectrum Parameter using HeMOSU-2 Observation Data
Uk-Jae Lee, Dong-Hui Ko, Ji-Young Kim, Hong-Yeon Cho
Journal of Korean Society of Coastal and Ocean Eng.2021; 33(6): 217. CrossRef
Stability Evaluation of Rear-Parapet Caisson Breakwaters under Regular Waves by Numerical Simulation
Byeong Wook Lee, Woo-Sun Park, Sukjin Ahn
Journal of Korean Society of Coastal and Ocean Eng.2020; 32(2): 95. CrossRef
Evaluation of the Hydraulic Performance of a Rear-Parapet Vertical Breakwater under Regular Waves through Hydraulic Experiments
Byeong Wook Lee, Woo-Sun Park
Water.2020; 12(9): 2428. CrossRef