References
- 권영문, 박진원, 김태웅 (2009). "강우의 증가 경향성을 고려한 목표연도 확률강우량 산정." 대한토목학회논문집, 대한토목학회, 제29권, 제2B호, pp. 131-139.
- 권현한, 김병식 (2009). "비정상성 Markov Chain Model을 이용한 통계학적 Downscaling 기법개발." 한국수자원학회논문집, 제42권, 제3호, pp. 213-225.
- 이정주, 권현한, 황규남 (2010), "극치수문자료의 계절성 분석 개념 및 비정상성 빈도해석을 이용한 확률강수량 해석", 한국수자원학회논문집, Vol. 43(8), pp. 733-745
- 이창환, 안재현, 김태웅 (2010), "비정상 강우빈도 해석법에 의한 확률강우량의 평가", 한국수자원학회논문집, Vol. 43(2), pp. 187-199
- Boorman, D.B. and Sefton, C.E,M. (1997). "Recognizing the uncertainty in the quantification of the effect of climate on hydrological response." Climate Change, Vol. 35, pp. 415-434. https://doi.org/10.1023/A:1005372407881
- Coles, S. (2001). An introduction to statistical modelling of extreme values, Springer, London.
- Cunderlik, J.M. and Burn, D.H. (2003). "Non-stationary pooled flood frequency analysis." Journal of Hydrology, Vol. 276, pp. 210-223 https://doi.org/10.1016/S0022-1694(03)00062-3
- Flower, H.J., and Kilsby, C.G. (2003). "A regional frequency analysis of United Kingdom extreme rainfall from 1961 to 2000." International Journal of Climatology, Vol. 23, pp. 1313-1334. https://doi.org/10.1002/joc.943
- Franks, S.W., and Kuczera, G. (2002), "Flood frequency analysis: Evidence and implications of secular climate variability", New South Wales. Water Resources Research, Vol. 38, No. 2, pp. 432-439.
- Ganguly, A.R.(2007) Climate Extremes Hydro-Meteorological Extremes and Impacts, Fall Creek Falls 2007 Workshop(www.ccs.ornl.gov)
- Gellens, D., and Roulin, E. (1998). "Streamflow response of Belgian catchment to IPCC climate change scenario." Journal of Hydrology, Vol. 210, pp. 242-258 https://doi.org/10.1016/S0022-1694(98)00192-9
- Griffis, V.W., and Stedinger, J.R. (2007). "Incorporating climate change and variability into Bulletin 17B LP3 Model." World Environmental and Water Resource Congress 2007, ASCE, Tampa, FL, USA.
- Griffith, G.M., Chambers, L.E.,Haylock, M.R.,Mamtom, M.J., Nicholls, N., Baek, H.J., Choi, Y., Della-Marta, P.M., Gosal, A., Iga, N.,Lata, R., Laurent, V., Maitrepierre, L., Nakamigawa, H., Ouprasitwong, N., Solofa, D, Tahani, L., Thuy, T., Tibig, L., Trewin, B., Vediapan, K., and Zhai, P.(2005) "Change in mean temperature as a predictor of extreme temperature change in the Asia-Pacific Region", International Journal of Climatology, Vol. 25, pp. 1301-1330 https://doi.org/10.1002/joc.1194
- Groisman PY, Karl TR, Easterling DR, Knight RW, Jamason PB, Hennessy JK, Suppiah R, Page ChM, Wibig J, Fortuniak K, Razuvaev VN, Douglas A, Forland E, Zhai PM. 1999. Changes in the probability of heavy precipitation: important indicators of climatic changes. Climatic Change Vol. 42(1): 243-283. https://doi.org/10.1023/A:1005432803188
- Halpert, M. S., and C. F. Ropelewski (1992), "Surface-temperature patterns associated with the Southern Oscillation", J. Clim., Vol. 5, pp. 577-593. https://doi.org/10.1175/1520-0442(1992)005<0577:STPAWT>2.0.CO;2
- He, Y., Bardossy, A. and Brommundtm, J. (2006). "Non-stationary flood frequency analysis in southern Germany." The 7th International Conference on HydroScience and Engineering, Philadelphia, USA
- Hershfield DM. (1973). "On the probability of extreme rainfall events.", Bulletin of the American Meteorological Society 54: 1013-018. Reiss R-D, Thomas M. 1997. Statistical Analysis of Extreme Values. Birkhauser: Basel, Boston, MA, Berlin.
- Jain, S., and U. Lall (2000), "Magnitude and timing of annual maximum floods: Trends and large-scale climatic associations for the Blacksmith Fork River", Utah, Water Resour. Res., 36(12), 3641-3651, https://doi.org/10.1029/2000WR900183
- Jain, S., and U. Lall (2001), "Floods in a changing climate: Does the past represent the future?", Water Resour. Res., Vol. 37(12), pp. 3193-3205 https://doi.org/10.1029/2001WR000495
- Karl T, Knight RW. (1998). "Secular trends of precipitation amount, frequency, and intensity in the United States.", Bulletin of the American Meteorological Society, Vol. 79(2), pp. 231-241. https://doi.org/10.1175/1520-0477(1998)079<0231:STOPAF>2.0.CO;2
- Katz RW (2002). "Stochastic modeling of hurricane damage.", J Appl Meteorol., Vol. 41, pp. 754-62 https://doi.org/10.1175/1520-0450(2002)041<0754:SMOHD>2.0.CO;2
- Katz RW, Parlange MB, Naveau P. (2002). "Statistics of extremes in hydrology.", Advances in Water Resources, Vol. 25(8-12), pp. 1287-1304. https://doi.org/10.1016/S0309-1708(02)00056-8
- Kendall, C., Sklash, M.G. and Bullen, T.D. (1995), "Isotope Tracers ofWater and Solute Sources in Catchments.", In Trudgill, S.T. (ed). Solute Modelling in Catchment Systems, pp. 261-303. Wiley, London.
- Kite, G.W. (1993). "Application of a land class hydrological model to climate change." Water Resour. Res., Vol. 29, pp. 2377-2384. https://doi.org/10.1029/93WR00582
- Klein Tank, A.M.G. and Konneb, G. P.(2003), "Trends in Indices of Daily Temperature and Precipitation Extremes in Europe, 1946-1999", Journal of Climate, Vol. 16, pp. 3665-3680 https://doi.org/10.1175/1520-0442(2003)016<3665:TIIODT>2.0.CO;2
- Milly, P. C. D., R. T. Wetherald, K. A. Dunne, and T. L. Delworth (2002), "Increasing risk of great floods in a changing climate", Nature, Vol. 415(6871), pp. 514-517 https://doi.org/10.1038/415514a
- Mirza. M.Q., Warrick, R.A., Ericksen, N.J., and Kenny, K.J. (1998). "Trend and persistence in precipitation in the Ganges, Brahmaputa and Meghna basin in the south Asia." Hydrol. Sci. J., Vol. 439(6), pp. 845-858.
- Mudersbach, C. and Jensen, J. (2010) "Nonstationary extreme value analysis of annual maximum water levels for designing coastal structures on the German North Sea Coastline.", Journal of Flood Risk Management, Vol. 3, pp. 52-62 https://doi.org/10.1111/j.1753-318X.2009.01054.x
- Panagoulia, D., and Dimou, G. (1997). "Sensitivity of flood events to global climate change." Journal of Hydrology, Vol. 191, pp. 208-222. https://doi.org/10.1016/S0022-1694(96)03056-9
- Piechota, T. C., and J. A. Dracup (1996), "Drought and regional hydrologic variation in the United States: Associations with the El Nino Southern Oscillation", Water Resour. Res., Vol. 32(5), pp. 1359-1373 https://doi.org/10.1029/96WR00353
- Pizaro, G., and U. Lall (2002), "El Nino and Floods in the US West: What can we expect?", Eos Trans. AGU, Vol. 83(32), pp. 349-352
- Porparto, A., and L. Ridolfi (1998), "Influence of weak trends on exceedance probability", Stochastic Hydrol. Hydraul., Vol. 12(1), pp. 1-15 https://doi.org/10.1007/s004770050006
- Rao,C.R. (1973), "Linear Statistical Inference and Its Applications(2nd ed.).", Wiley, New York
- Ropeleweski, C. F., and M. S. Halpert (1987), "Global and regional scale precipitation patterns associated with the El Nino/Southern Oscillation", Mon. Weather Rev., Vol. 115, pp. 1606-1626 https://doi.org/10.1175/1520-0493(1987)115<1606:GARSPP>2.0.CO;2
- Sankarasubramanian, A. and Upmanu Lall (2003), "Flood quantiles in a changing climate: Seasonal forecasts and causal relations", Water Resources Research, Vol. 39(5), pp. 1134,
- Smith RL. (1989), "Extreme value analysis of environmental time series: an application to trend detection in ground-level ozone.", Statistical Science Vol. 4, pp. 367-393. https://doi.org/10.1214/ss/1177012400
- Stedinger, J.R., and Crainiceanu, C.M. (2001). "Climate variability and flood-risk management, risk-based decision making in water resources." IX Proceedings of the Ninth Conference, United Engineering Foundation, ASCE, Santa Barbara, CA USA, pp. 77-86.
- Strupczewski, W.G., Singh, V.P., and Flench, W. (2001). "Non-stationary approach to at-site flood frequency modeling I. Maximum likelihood estimation." Journal of Hydrology, Vol. 248, pp. 123-142. https://doi.org/10.1016/S0022-1694(01)00397-3
- Wang, J., and Yang, P. (2005). "A compound reconstructed prediction model for nonstationary climate processes." Journal of Climatology, Vol 25, pp. 1265-1277. https://doi.org/10.1002/joc.1158