An Integrated Approach for Assessing the Impact of Large‐Scale Future Floods on a Highway Transport System
暂无分享,去创建一个
Jianxi Gao | H Eugene Stanley | Fuyu Hu | H. Stanley | Jianxi Gao | Saini Yang | Fuyu Hu | Weiping Wang | Saini Yang | Weiping Wang | Wanyi Zhao | Wanyi Zhao
[1] R. Dawson,et al. The impact of flooding on road transport: A depth-disruption function , 2017 .
[2] Karl E. Taylor,et al. An overview of CMIP5 and the experiment design , 2012 .
[3] S. Kanae,et al. Global flood risk under climate change , 2013 .
[4] M J Lighthill,et al. On kinematic waves II. A theory of traffic flow on long crowded roads , 1955, Proceedings of the Royal Society of London. Series A. Mathematical and Physical Sciences.
[5] S. Kanae,et al. A physically based description of floodplain inundation dynamics in a global river routing model , 2011 .
[6] Roger Alexander Falconer,et al. Incipient velocity for partially submerged vehicles in floodwaters , 2011 .
[7] P. I. Richards. Shock Waves on the Highway , 1956 .
[8] Xiaoliang Lu,et al. Author Correction: Tidal wetland resilience to sea level rise increases their carbon sequestration capacity in United States , 2019, Nature Communications.
[9] H. Douville,et al. Global off-line evaluation of the ISBA-TRIP flood model , 2012, Climate Dynamics.
[10] Jie Yin,et al. Evaluating the impact and risk of pluvial flash flood on intra-urban road network: A case study in the city center of Shanghai, China , 2016 .
[11] H. Douville,et al. A new river flooding scheme for global climate applications: Off‐line evaluation over South America , 2008 .
[12] S. Derrible,et al. Using climate models to estimate urban vulnerability to flash floods , 2017 .
[13] Erik Jenelius,et al. Road network vulnerability analysis of area-covering disruptions: A grid-based approach with case study , 2012 .
[14] Motohiro Fujita,et al. Stochastic Modeling of Road System Performance during Multihazard Events: Flash Floods and Earthquakes , 2017 .
[15] X. Ying,et al. The Projection of Temperature and Precipitation over China under RCP Scenarios using a CMIP5 Multi-Model Ensemble , 2012 .
[16] C. Daganzo. THE CELL TRANSMISSION MODEL.. , 1994 .
[17] F. Pappenberger,et al. Complex picture for likelihood of ENSO-driven flood hazard , 2017, Nature Communications.
[18] Sujan Koirala,et al. Illustrating a new global-scale approach to estimating potential reduction in fish species richness due to flow alteration , 2014 .
[19] H. Cloke,et al. Large‐scale hydrology: advances in understanding processes, dynamics and models from beyond river basin to global scale , 2011 .
[20] N. Arnell,et al. The global-scale impacts of climate change on water resources and flooding under new climate and socio-economic scenarios , 2013, Climatic Change.
[21] D. Buckley. A Semi-Poisson Model of Traffic Flow , 1968 .
[22] Jeroen C. J. H. Aerts,et al. A global framework for future costs and benefits of river-flood protection in urban areas , 2017, Nature Climate Change.
[23] J. Knox. Large increases in flood magnitude in response to modest changes in climate , 1993, Nature.
[24] Alan Wilson,et al. A statistical theory of spatial distribution models , 1967 .
[25] Saini Yang,et al. Impact Factors and Risk Analysis of Tropical Cyclones on a Highway Network , 2016, Risk analysis : an official publication of the Society for Risk Analysis.
[26] J. Eleutério,et al. A systemic method for evaluating the potential impacts of floods on network infrastructures , 2013 .
[27] Klemens Böhm,et al. Agent-Based Traffic Control Using Auctions , 2007, CIA.
[28] Uwe Grünewald,et al. Flood Risk in Central Europe , 2003, Science.
[29] Ana L. C. Bazzan,et al. The impact of real-time information in a two-route scenario using agent-based simulation , 2002 .
[30] Trent M. Hare,et al. Surface processes recorded by rocks and soils on Meridiani Planum, Mars: Microscopic Imager observations during Opportunity's first three extended missions , 2008 .
[31] C. Prudhomme,et al. Can atmospheric circulation be linked to flooding in Europe? , 2011 .
[32] H. Fowler,et al. Multi‐model ensemble estimates of climate change impacts on UK seasonal precipitation extremes , 2009 .
[33] F. Pappenberger,et al. Deriving global flood hazard maps of fluvial floods through a physical model cascade , 2012 .
[34] R. Nicholls,et al. Global-scale climate impact functions: the relationship between climate forcing and impact , 2016, Climatic Change.
[35] S. Kanae,et al. Analysis of the water level dynamics simulated by a global river model: A case study in the Amazon River , 2012 .
[36] Jungyul Sohn,et al. Evaluating the significance of highway network links under the flood damage: An accessibility approach , 2006 .
[37] C. Lavalle,et al. Flood risk mapping at European scale. , 2007, Water science and technology : a journal of the International Association on Water Pollution Research.
[38] Q. Dai,et al. Indirect Damage of Urban Flooding: Investigation of Flood-Induced Traffic Congestion Using Dynamic Modeling , 2018 .
[39] Wolfgang Lutz,et al. The human core of the shared socioeconomic pathways: Population scenarios by age, sex and level of education for all countries to 2100 , 2017, Global environmental change : human and policy dimensions.
[40] Bruno Merz,et al. A consistent set of trans-basin floods in Germany between 1952–2002 , 2010 .
[41] N. Arnell,et al. The impacts of climate change on river flood risk at the global scale , 2016, Climatic Change.
[42] J. Hillier,et al. Extending natural hazard impacts: an assessment of landslide disruptions on a national road transportation network , 2017 .
[43] Neha Pahuja,et al. Vulnerability assessment of urban road network from urban flood , 2018, International Journal of Disaster Risk Reduction.
[44] Ulf Hansson,et al. Evaluation and future projections of temperature, precipitation and wind extremes over Europe in an ensemble of regional climate simulations , 2011 .
[45] David P. Edwards,et al. A global strategy for road building , 2014, Nature.
[46] M. Figliozzi,et al. Potential Impacts of Climate Change on Flood-Induced Travel Disruptions: A Case Study of Portland, Oregon, USA , 2010 .
[47] Sybil Derrible,et al. Robustness of road systems to extreme flooding: using elements of GIS, travel demand, and network science , 2017, Natural Hazards.
[48] N. Arnell,et al. The impacts of climate change on river flow regimes at the global scale , 2013 .
[49] Weiping Wang,et al. An approach for cascading effects within critical infrastructure systems , 2018, Physica A: Statistical Mechanics and its Applications.
[50] S. Kanae,et al. Compound simulation of fluvial floods and storm surges in a global coupled river‐coast flood model: Model development and its application to 2007 Cyclone Sidr in Bangladesh , 2017, Journal of Advances in Modeling Earth Systems.
[51] Nigel W. Arnell,et al. Simulating current global river runoff with a global hydrological model: model revisions, validation, and sensitivity analysis , 2011 .
[52] Roger Alexander Falconer,et al. Criterion of vehicle stability in floodwaters based on theoretical and experimental studies , 2013, Natural Hazards.
[53] Nancy G. Leveson,et al. Early Concept Development and Safety Analysis of Future Transportation Systems , 2016, IEEE Transactions on Intelligent Transportation Systems.
[54] B D Greenshields,et al. A study of traffic capacity , 1935 .
[55] Albert S. Chen,et al. Flood Impacts on Road Transportation Using Microscopic Traffic Modelling Techniques , 2018, Lecture Notes in Mobility.
[56] Stefan Hochrainer-Stigler,et al. Increasing stress on disaster-risk finance due to large floods , 2014 .
[57] M. Mirza. Climate change, flooding in South Asia and implications , 2011 .
[58] Yun-Pang Flötteröd,et al. Microscopic Traffic Simulation using SUMO , 2018, 2018 21st International Conference on Intelligent Transportation Systems (ITSC).
[59] A. Thomson,et al. The representative concentration pathways: an overview , 2011 .
[60] P. Suarez,et al. Impacts of flooding and climate change on urban transportation: A systemwide performance assessment of the Boston Metro Area , 2005 .