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Predicting tsunami-like solitary wave run-up over fringing reefs using the multi-layer perceptron neural network

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Listed:
  • Yu Yao

    (Changsha University of Science and Technology
    Key Laboratory of Water-Sediment Sciences and Water Disaster Prevention of Hunan Province)

  • Xiaoxiao Yang

    (Changsha University of Science and Technology)

  • Sai Hin Lai

    (University of Malaya)

  • Ren Jie Chin

    (Universiti Tunku Abdul Rahman)

Abstract

Modeling of tsunami wave interaction with coral reefs to date focuses mainly on the process-based numerical models. In this study, an alternative machine learning technique based on the multi-layer perceptron neural network (MLP-NN) is introduced to predict the tsunami-like solitary wave run-up over fringing reefs. Two hydrodynamic forcings (incident wave height, reef-flat water level) and four reef morphologic features (reef width, fore-reef slope, beach slope, reef roughness) are selected as the input variables and wave run-up on the back-reef beach is assigned as the output variable. A validated numerical model based on the Boussinesq equations is applied to provide a dataset consisting of 4096 runs for MLP-NN training and testing. Results analyses show that the MLP-NN consisting of one hidden layer with ten hidden neurons provides the best predictions for the wave run-up. Subsequently, model performances in view of individual input variables are accessed via an analysis of the percentage errors of the predictions. Finally, a mean impact value analysis is also conducted to evaluate the relative importance of the input variables to the output variable. In general, the adopted MLP-NN has high predictive capability for wave run-up over the reef-lined coasts, and it is an alternative but more efficient tool for potential use in tsunami early warning system or risk assessment projects.

Suggested Citation

  • Yu Yao & Xiaoxiao Yang & Sai Hin Lai & Ren Jie Chin, 2021. "Predicting tsunami-like solitary wave run-up over fringing reefs using the multi-layer perceptron neural network," Natural Hazards: Journal of the International Society for the Prevention and Mitigation of Natural Hazards, Springer;International Society for the Prevention and Mitigation of Natural Hazards, vol. 107(1), pages 601-616, May.
    • Handle: RePEc:spr:nathaz:v:107:y:2021:i:1:d:10.1007_s11069-021-04597-w
    DOI: 10.1007/s11069-021-04597-w
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    1. Emma Marris, 2005. "Tsunami damage was enhanced by coral theft," Nature, Nature, vol. 436(7054), pages 1071-1071, August.
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