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Long-Wave Runup Models

Proceedings of the International Workshop
    https://doi.org/10.1142/9789814530330Cited by:31 (Source: Crossref)
    Abstract:

    The Table of Contents for the book is as follows:

    • Preface

    • Participants and Contributors

    • Review Articles

      • On the Interaction of Water Waves with Islands.

      • Review of Tsunami Simulation with a Finite Difference Method.

      • Review of Finite Element Methods for Tsunami Simulations.

      • Numerical Prediction of Solitary Wave Runup on Vertical Walls by Finite-Amplitude Shallow-Water Wave Model.

      • Fully Nonlinear Potential Flow Models used for Long Wave Runup Prediction

      • Modeling Tsunamis with Marker and Cell Methods.

    • Contributed Discussion Papers

      • Physical Model Test of Hokkaido Nansei-Oki Earthquake Tsunami Around Cape Aonae.

      • Analytic Solutions of Solitary Wave Runup on the Conical Island and on the Revere Beach.

      • Application of Linear Theory to the Computation of Runup of Solitary Wave on a Conical Island.

      • Simulation of Wave-Packet Propagation Along Sloping Beach by TUNAMI-Code.

      • Numerical Modeling of 3-D Long Wave Runup Using VTCS-3.

      • Tsunami Runup on Okushiri Island.

      • Finite Element Analysis in Bench Mark Problems 2 and 3.

      • WET2: An Eularian-Lagrangian Shallow Water FEM Model.

      • Finite Element Solutions of the Hokkaido Nansei-Oki Benchmark.

      • Application of a Finite Element, Wave Equation Model to the Benchmark Problems : 1 and 3.

      • Numerical Modelling of Solitary Wave Propagation and Breaking on a Beach and Runup on a Vertical Wall.

      • Runup of Solitary Waves on a Vertical Wall.

      • Calculation of Runup Using a Local Polynomial Approximation Model: Discussion for Benchmark Problem 3.

      • Numerical Simulations of Solitary Wave Generation and Runup on a Canal Compared with Experiment.

      • Three-Dimensional Analysis of Long Wave Runup on a Conical Island by Using the MAC Method.

      • Tsunami Runup in a Sloping Channel.

      • Long Wave Run-up Modelling in 2D Using Finite Difference Grid With Surface Roller and Moving Boundaries.

    • Commentary

    • Appendices — Benchmark Problems

      • Problem 1: Wave-Packet Propagation Along a Uniformly Sloping Beach.

      • Problem 2: Runup of Solitary Waves on a Circular Island.

      • Problem 3: Runup of Solitary Waves on a Vertical Wall.

      • Problem 4: The 1993 Okushiri Tsunami: Data, Conditions and Phenomena.

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