Extreme responses and associated uncertainties for a long end-anchored floating bridge

Moan, 2020, Floating bridges and submerged tunnels in Norway—the history and future outlook, vol. 41 Cheng, 2018, Hydrodynamic load modeling and analysis of a floating bridge in homogeneous wave conditions, Mar Struct, 59, 122, 10.1016/j.marstruc.2018.01.007 Cheng, 2019, Numerical modeling and dynamic analysis of a floating bridge subjected to wind, wave, and current loads, J Offshore Mech Arct Eng, 141, 011601, 10.1115/1.4040561 Kvåle, 2016, Modelling the stochastic dynamic behaviour of a pontoon bridge: a case study, Comput Struct, 165, 123, 10.1016/j.compstruc.2015.12.009 Cheng, 2018, Wave load effect analysis of a floating bridge in a fjord considering inhomogeneous wave conditions, Eng Struct, 163, 197, 10.1016/j.engstruct.2018.02.066 Naess, 2013 Winterstein SR, Ude TC, Cornell CA, Bjerager P, Haver S. Environmental parameters for extreme response: Inverse form with omission factors. In: Proceedings of the ICOSSAR-93, Innsbruck, Austria; 1993. p. 551–7. Haver, 2009, Environmental contour lines: a method for estimating long term extremes by a short term analysis, Trans Soc Naval Archit Mar Eng, 116, 116 Winterstein SR, Engebretsen K. Reliability-based prediction of design loads and responses for floating ocean structures. In: 17th International conference on offshore mechanics and Arctic Engineering, Lisbon, Portugal; 1998. p. 1998. Gl, 2014 NORSOK N-003, Actions and action effects, Norwegian Technology Standard, Oslo, Norway; 2017. Naess, 2007, Extreme response prediction for nonlinear floating offshore structures by Monte Carlo simulation, Appl Ocean Res, 29, 221, 10.1016/j.apor.2007.12.001 Naess, 2008, Monte Carlo methods for estimating the extreme response of dynamical systems, J Eng Mech, 134, 628, 10.1061/(ASCE)0733-9399(2008)134:8(628) Saha, 2014, Short-term extreme response analysis of a jacket supporting an offshore wind turbine, Wind Energy, 17, 87, 10.1002/we.1561 Cheng, 2017, A comparison of extreme structural responses and fatigue damage of semi-submersible type floating horizontal and vertical axis wind turbines, Renew Energy, 108, 207, 10.1016/j.renene.2017.02.067 Øiseth O, Rönnquist A, Naess A, Sigbjömsson R. Estimation of extreme response of floating bridges by monte carlo simulation. In: Proceedings of the 9th international conference on structural dynamics, EURODYN 2014, Porto, Portugal; 2014. Giske, 2018, Long-term extreme response analysis of a long-span pontoon bridge, Mar Struct, 58, 154, 10.1016/j.marstruc.2017.11.010 Xu, 2018, Prediction of long-term extreme load effects due to wave and wind actions for cable-supported bridges with floating pylons, Eng Struct, 172, 321, 10.1016/j.engstruct.2018.06.023 Moan, 2005, Uncertainty of wave-induced response of marine structures due to long-term variation of extratropical wave conditions, Mar Struct, 18, 359, 10.1016/j.marstruc.2005.11.001 COWI, NOT-HYDA-018 Curved bridge navigation channel in south - environmental loading analysis., Report for the Norwegian Public Road Administration. COWI AS, Oslo, Norway; 2016. https://www.vegvesen.no/_attachment/1605060/binary/1145259?fasttitle=Bj%C3%B8rnafjorden+Endeforankret+flytebun+-+Oppsumering+av+analyser.pdf. MARINTEK, Rifelx theory manual, version 4.0; 2012. Strømmen, 2010 MARINTEK, Simo-theory manual version 4.0; 2012. Faltinsen, 1995 Vanmarcke, 1975, On the distribution of the first-passage time for normal stationary random processes, J Appl Mech, 215, 10.1115/1.3423521 Papaioannou, 2013, Stochastic hydroelastic analysis of pontoon-type very large floating structures considering directional wave spectrum, Probab Eng Mech, 33, 26, 10.1016/j.probengmech.2013.01.006 Statens Vegvesen, Design basis metocean, SBJ-01-C3-SVV-01-BA-001, Statens Vegvesen, Norway; 2017. Cheng, 2019, Long-term joint distribution of environmental conditions in a norwegian fjord for design of floating bridges, Ocean Eng, 191, 106472, 10.1016/j.oceaneng.2019.106472 Jonkman BJ. Turbsim user’s guide: Version 1.50., Tech. rep; 2009. Vegvesen, 2015 Langley, 1986, On the time domain simulation of second order wave forces and induced responses, Appl Ocean Res, 8, 134, 10.1016/S0141-1187(86)80012-8 Tucker, 2001 Cheng, 2019, Field measurements of inhomogeneous wave conditions in Bjørnafjorden, J Waterway, Port, Coast, Ocean Eng, 145, 05018008, 10.1061/(ASCE)WW.1943-5460.0000481