Acknowledgement
이 논문은 2021년 해양수산부 재원으로 해양수산과학기술진흥원의 지원을 받아 수행된 연구이며(연안활동장소에 대한 위험도 평가 및 예측체계 개발), 또한 2021년도 정부(교육부)의 재원으로 한국연구재단의 지원을 받아 수행된 연구임(No. 2020R1I1A3071573).
References
- Bell, C., Vassie, J.M. and Woodworth, P.L. (2000). POL/PSMSL tidal analysis software kit 2000 (TASK-2000), permanent service for mean sea level. CCMS Proudman Oceanographic Laboratory, UK, 22 p.
- Birnbaum, A. (1961). A unified theory of estimation, I. The annals of mathematica-l statistics, 112-135.
- Cha, J. and Kim, J. (2018). Analysis of fine dust correlation between air quality and meteorological factors using SPSS. Journal of the Korea Institute of Information and Communication Engineering, 22(5), 722-727 (in Korean). https://doi.org/10.6109/JKIICE.2018.22.4.722
- Emanuel, K., Sundararajan, R. and Williams, J. (2008). Hurricanes and global warming: Results from downscaling IPCC AR4 simulations. Bulletin of the American Meteorological Society, 89(3), 347-368. https://doi.org/10.1175/BAMS-89-3-347
- Hyun, S.K., Kim, S.E., Jin, J.Y. and Do, J.D. (2016). Numerical simulation of water level change at the coastal Area in the east sea with the inverted barometer effect. Journal of Korean Society of Coastal and Ocean Engineers, 28(1), 13-26 (in Korean). https://doi.org/10.9765/KSCOE.2016.28.1.13
- IPCC (2014). Climate change 2014: synthesis report. Contribution of Working Groups I, I and II to the fifth asesment report of the intergovernmental Panel on Climate Change. IPCC, Geneva, Switzerland, 151 p.
- Jung, T.S. (2014). Change of mean sea level due to coastal development and climate change in the western coast of Korean peninsula. Journal of Korean Society of Coastal and Ocean Engineers, 26(3), 120-130 (in Korean). https://doi.org/10.9765/KSCOE.2014.26.3.120
- Kang, J.H., Kim, Y.S. and Cho, H.Y. (2013). Decomposition of tidal residual data using a wavelet method and characteristic analysis of their short-period components. Journal of Korean Society of Coastal and Ocean Engineers, 25(3), 165-171 (in Korean). https://doi.org/10.9765/KSCOE.2013.25.3.165
- Kang, J.H., Park, S.J. and Park, M.W. (2008a). Rising tendencies of both tidal elevation and surge level at the southwestern coast. Journal of Korean Society of Coastal and Ocean Engineers, 20(1), 14-24 (in Korean).
- Kang, S.K., Cherniawsky, J.Y., Foreman, M.G., So, J.K. and Lee, S.R. (2008b). Spatial variability in annual sea level variations around the Korean peninsula. Geophysical Research Letters, 35(3).
- Kang, T.S., Oh, H.M., Lee, H.M. and Eum, H.S. (2015). Storm surge vulnerability assessment due to typhoon attack on coastal area in Korea. Journal of the Korean Society of Marine Environment Safety, 21(5), 608-616 (in Korean). https://doi.org/10.7837/kosomes.2015.21.5.608
- Kang, Y.Q. and Lee, B.D. (1985). On the annual variation of mean sea level along the coast of Korea. The Journal of the Oceanological Socciety Korea, 20, 22-30 (in Korean).
- Kim, H.J. and Suh, S.W. (2019). Summer seasonal sea-level rise and associated potential storm surge vulneralbility of the West Coast of Korea. Journal of Coastal Research, 91(SI), 21-25. https://doi.org/10.2112/SI91-005.1
- Kim, Y.I., Kim, D.H. and Lee, S.O. (2020). Prediction of temperature and heat wave occurrence for summer season using machine learning. Journal of Korean Society of Disaster and Security, 13(2), 27-38 (in Korean). https://doi.org/10.21729/KSDS.2020.13.2.27
- Korea Hydrographic and Oceanographic Agency (2012a). Oceanic abnormal phenomena report Vol. 2 (in Korean).
- Korea Hydrographic and Oceanographic Agency (2012b). Oceanic abnormal phenomena report Vol. 3 (in Korean).
- Korea Hydrographic and Oceanographic Agency (2016). Typhoon report, Vol. 1 (in Korean).
- Korea Hydrographic and Oceanographic Agency (2018). Typhoon report, Vol. 3 (in Korean).
- Korea Institute of Ocean Science & Technology (2010). Development of strom surge and tsunami prediction system and estimation of design water level for major ports in Korea research report (in Korean).
- Korea Meteorological Administration Weather Nuri (2021). Korea's Typhoon Occurrence. https://www.weather.go.kr/w/typhoon/typstat.do (last date accessed: 15 June 2021) (in Korean).
- Ku, H.Y., Maeng, J.H. and Jo, K.W. (2019). Deterministic estimation of yyphoon-Induced surges and inundation on Korean coastal regions. Journal of Korean Society of Coastal and Ocean Engineers, 31(1), 1-8 (in Korean). https://doi.org/10.9765/KSCOE.2019.31.1.1
- Marcos, M., Tsimplis, M.N. and Calafat, F.M. (2012). Inter-annual and decadal sea level variations in the north-western Pacific marginal seas. Progress in Oceanography, 105, 4-21. https://doi.org/10.1016/j.pocean.2012.04.010
- Menendez, M. and Woodworth, P.L. (2010). Changes in extreme high water levels based on a quasi-global tide-gauge data set. Journal of Geophysical Research: Oceans, 115(C10).
- Ministry of Oceans and Fisheries (2021). Coastal Disaster Damage Status (2021). https://coast.mof.go.kr/coastAdmin/research/disaster.do [accessed 2021.06.0-4.] (in Korean).
- Park, S.H. (2018). Adaptive sea level prediction method based on harmonic anlysis. Journal of the Korea Institute of Information and Communication Engineering, 22(2), 276-283 (in Korean). https://doi.org/10.6109/JKIICE.2018.22.2.276
- Pugh, D.T. (1987). Tides, surges and mean sea-level. John Wiley and Sons, 472 pp.
- Suh, S.W. and Kim, H.J. (2018). Simulation of wave overtopping and inundation over a dike caused by typhoon CHABA at marine city, Busan, Korea. Journal of Coastal Research, 85, 711-715. https://doi.org/10.2112/si85-143.1
- Watson, P.J. (2015). Development of a unique synthetic data set to improve sea-level research and understanding. Journal of Coastal Research, 31(3), 758-770. https://doi.org/10.2112/jcoastres-d-14-00143.1
- Wikipedia (2021). https://ko.wikipedia.org/wiki/Typhoon (last date accessed: 30 August 2021).
- Yoon, J.J. and Kim, S.I. (2012). Analysis of long period sea level variation on tidal station around the Korea penisula. Journal of the Korean Society of Hazard Mitigation, 12(3), 299-305 (in Korean). https://doi.org/10.9798/KOSHAM.2012.12.3.299