An evaluation of deep learning models for urban floods forecasting / En utvärdering av modeller för djupinlärning för prognoser över översvämningar i städer

Mu, Yang

January 2022

Flood forecasting maps are essential for rapid disaster response and risk management, yet the computational complexity of physically-based simulations hinders their application for efficient high-resolution spatial flood forecasting. To address the problems of high computational cost and long prediction time, this thesis proposes to develop deep learning neural networks based on a flood simulation dataset, and explore their potential use for flood prediction without learning hydrological modelling knowledge from scratch.  A Fully Convolutional Network (FCN), FCN with multiple outputs (Multioutput FCN), UNet, Graph-based model and their Recurrent Neural Network (RNN) variants are trained on a catchment area with twelve rainfall events, and evaluated on two cases of a specific rainfall event both quantitatively and qualitatively. Among them, Convolution-based models (FCN, Multioutput FCN and UNet) are commonly used to solve problems related to spatial data but do not encode the position and orientation of objects, and Graph-based models can capture the structure of the problem but require higher time and space complexity. RNN-based models are effective for modelling time-series data, however, the computation is slow due to its recurrent nature. The results show that Multioutput FCN and the Graph-based model have significant advantages in predicting deep water depths (>50 cm), and the application of recurrent training greatly improves the long-term flood prediction accuracy of the base deep learning models. In addition, the proposed recurrent training FCN model performs the best and can provide flood predictions with high accuracy.

Urban flooding forecasting

Convolutional neural networks

Deep learning

Physically-based simulation

Recurrent neural network

Stadsöversvämningsprognoser

konvolutionella neurala nätverk

djupinlärning

fysiskt baserad simulering

återkommande neurala nätverk

Meteorology and Atmospheric Sciences

Meteorologi och atmosfärforskning

Energy Engineering

Energiteknik

Media and Communication Technology

Medieteknik