论文信息 - Development of Real-Time Tools for Hurricane Risk Assessment

Development of Real-Time Tools for Hurricane Risk Assessment

This paper examines the development of real-time hurricane/storm surge risk assessment tools utilizing existing databases of high-fidelity simulations. Foundation of the approach is the formulation of a surrogate model that can provide an approximation to storm responses utilizing the information in any such database. Kriging metamodeling is adopted here for this purpose as it facilitates a matrix-based, computationally efficient evaluation of the response over an extensive coastal region, including a large number of points (nodes) for which this response is evaluated. To alleviate problems related to the high-dimensionality of this output, principal component analysis is considered as a dimensional reduction technique, contributing significantly to computational efficiency (lower memory requirements and faster evaluations). Additionally, a correction stage is introduced to address problems for nodes that have remained dry for certain storms in the initial database. The developed surrogate model can be ultimately utilized for real-time predictions. The approach is illustrated for estimation of the surge risk in the New Orleans region.

[1] Michael E. Tipping,et al. Probabilistic Principal Component Analysis , 1999 .

[2] Donald R. Jones,et al. A Taxonomy of Global Optimization Methods Based on Response Surfaces , 2001, J. Glob. Optim..

[3] Alexandros A. Taflanidis,et al. Tropical cyclone inundation potential on the Hawaiian Islands of Oahu and Kauai , 2012 .

[4] J. Westerink,et al. Rapid Assessment of Wave and Surge Risk during Landfalling Hurricanes: Probabilistic Approach , 2013 .

[5] Thomas J. Santner,et al. The Design and Analysis of Computer Experiments , 2003, Springer Series in Statistics.

[6] Donald T. Resio,et al. A surge response function approach to coastal hazard assessment – part 1: basic concepts , 2009 .

[7] J. Irish,et al. A surge response function approach to coastal hazard assessment. Part 2: Quantification of spatial attributes of response functions , 2009 .

[8] Alexandros A. Taflanidis,et al. Kriging metamodeling for approximation of high-dimensional wave and surge responses in real-time storm/hurricane risk assessment , 2013 .

[9] Alexandros A. Taflanidis,et al. Implementation/optimization of moving least squares response surfaces for approximation of hurricane/storm surge and wave responses , 2013, Natural Hazards.

[10] J. Westerink,et al. Modeling the physics of storm surges , 2008 .

[11] Søren Nymand Lophaven,et al. DACE - A Matlab Kriging Toolbox , 2002 .

[12] Melvin J. Dubnick. Army Corps of Engineers , 1998 .