Bilskie MV, Hagen SC, Medeiros SC, & Passeri DL (2014) Dynamics of sea level rise and coastal flooding on a changing landscape. Geophysical Research Letters 41(3):927-934
Chen YR, Yeh CH, & Yu B (2011) Integrated application of the analytic hierarchy process and the geographic information system for flood risk assessment and flood plain management in Taiwan. Natural Hazards 59(3):1261-1276
Daksiya V, Su H T, Chang YH, & Lo EY (2017) Incorporating socio-economic effects and uncertain rainfall in flood mitigation decision using MCDA. Natural Hazards 87(1):515-531
Downer CW, & Ogden FL (2004) GSSHA: Model to simulate diverse stream flow producing processes. Journal of Hydrologic Engineering 9(3):161-174
Karamouz M, Taheri M, Khalili P, & Chen X (2019) Building Infrastructure Resilience in Coastal Flood Risk Management. Journal of Water Resources Planning and Management 145(4): 04019004
Karamouz M, Razmi A, Nazif S, & Zahmatkesh Z (2017) Integration of inland and coastal storms for flood hazard assessment using a distributed hydrologic model. Environmental Earth Sciences 76(11):395
Karamouz M, Zahmatkesh Z, Goharian E, & Nazif S (2014) Combined impact of inland and coastal floods: Mapping knowledge base for development of planning strategies. Journal of Water Resources Planning and Management 141(8):04014098
Karamouz M, Nazif S, & Falahi M (2012) Hydrology and hydroclimatology: Principles and applications. CRC Press
Khakbaz B, Imam B, Hsu K, & Sorooshian S (2012) From lumped to distributed via semi-distributed: Calibration strategies for semi-distributed hydrologic models. Journal of Hydrology 418:61-77
Khaliq MN, Ouarda TBMJ, Ondo JC, Gachon P, & Bobée B (2006) Frequency analysis of a sequence of dependent and/or non-stationary hydro-meteorological observations: A review. Journal of Hydrology 329(3-4):534-552
Machado MJ, Botero BA, López J, Francés F, Díez-Herrero A, & Benito G (2015) Flood frequency analysis of historical flood data under stationary and non-stationary modelling. Hydrology and Earth System Sciences 19(6):2561
Marfai MA, Sekaranom AB, & Ward P (2015) Community responses and adaptation strategies toward flood hazard in Jakarta, Indonesia. Natural Hazards 75(2):1127-1144
Nguyen P, Thorstensen A, Sorooshian S, Hsu K, AghaKouchak A, Sanders B, & Smith M (2016) A high resolution coupled hydrologic–hydraulic model (HiResFlood-UCI) for flash flood modeling. Journal of Hydrology 541:401-420
NOAA (2017b) Observed water levels at Kings Point. Available at: https://tidesandcurrents.noaa.gov/ waterlevels.html?id=851 6945 [Online]
Ozhan M, Bahremand A, Sheikhi V, Komaki Ch (2018) Prediction of floods extent with different return periods using 2-d hydraulic model, LISFLOOD-FP. Iran-Water Resources Research (In Persian)
Patrick L, Solecki W, Jacob KH, Kunreuther H, & Nordenson G (2015) New York city panel on climate change 2015 report chapter 3: static coastal flood mapping. Annals of the New York Academy of Sciences 1336(1):45-55
Rahimi L, Dehghani A, Abdolhosseini M, & Ghorbani Kh (2014) Flood frequency analysis using archimedean copula functions based on annual maximum series (case study: Arazkuseh hydrometric station in Golestan province). Iranian Journal of Irrigation and Drainage (In Persian)
RBD (2014) Hudson river project team's proposal. Available at: http://www.rebuildbydesign.org/data/ files/673.pdf [Online]
Shiau JT (2006) Fitting drought duration and severity with two-dimensional copulas. Water Resources Management 20(5):795-815
Yosefi M, Ansari H, Mosaedi A, Samadi Z (2017) The relationship between three drought indices with a number of climate parameters in several climatic zones of Iran. Iran-Water Resources Research (In Persian)