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Application of Deep Learning-based Interpolation Methods to Nearshore Bathymetry

Authors :
Qian, Yizhou
Forghani, Mojtaba
Lee, Jonghyun Harry
Farthing, Matthew
Hesser, Tyler
Kitanidis, Peter
Darve, Eric
Qian, Yizhou
Forghani, Mojtaba
Lee, Jonghyun Harry
Farthing, Matthew
Hesser, Tyler
Kitanidis, Peter
Darve, Eric
Publication Year :
2020

Abstract

Nearshore bathymetry, the topography of the ocean floor in coastal zones, is vital for predicting the surf zone hydrodynamics and for route planning to avoid subsurface features. Hence, it is increasingly important for a wide variety of applications, including shipping operations, coastal management, and risk assessment. However, direct high resolution surveys of nearshore bathymetry are rarely performed due to budget constraints and logistical restrictions. Another option when only sparse observations are available is to use Gaussian Process regression (GPR), also called Kriging. But GPR has difficulties recognizing patterns with sharp gradients, like those found around sand bars and submerged objects, especially when observations are sparse. In this work, we present several deep learning-based techniques to estimate nearshore bathymetry with sparse, multi-scale measurements. We propose a Deep Neural Network (DNN) to compute posterior estimates of the nearshore bathymetry, as well as a conditional Generative Adversarial Network (cGAN) that samples from the posterior distribution. We train our neural networks based on synthetic data generated from nearshore surveys provided by the U.S.\ Army Corps of Engineer Field Research Facility (FRF) in Duck, North Carolina. We compare our methods with Kriging on real surveys as well as surveys with artificially added sharp gradients. Results show that direct estimation by DNN gives better predictions than Kriging in this application. We use bootstrapping with DNN for uncertainty quantification. We also propose a method, named DNN-Kriging, that combines deep learning with Kriging and shows further improvement of the posterior estimates.

Details

Database :
OAIster
Publication Type :
Electronic Resource
Accession number :
edsoai.on1228446884
Document Type :
Electronic Resource