On the use of convolutional deep learning to predict shoreline change

IF 2.8 2区 地球科学 Q2 GEOGRAPHY, PHYSICAL
Eduardo Gomez-de la Peña, Giovanni Coco, Colin Whittaker, Jennifer Montaño
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引用次数: 2

Abstract

Abstract. The process of shoreline change is inherently complex, and reliable predictions of shoreline position remain a key challenge in coastal research. Predicting shoreline evolution could potentially benefit from deep learning (DL), which is a recently developed and widely successful data-driven methodology. However, so far its implementation for shoreline time series data has been limited. The aim of this contribution is to investigate the potential of DL algorithms to predict interannual shoreline position derived from camera system observations at a New Zealand study site. We investigate the application of convolutional neural networks (CNNs) and hybrid CNN-LSTM (Long Short-Term Memory) networks. We compare our results with two established models: a shoreline equilibrium model and a model that addresses timescales in shoreline drivers. Using a systematic search and different measures of fitness, we found DL models that outperformed the reference models when simulating the variability and distribution of the observations. Overall, these results indicate that DL models have potential to improve accuracy and reliability over current models.
关于使用卷积深度学习来预测海岸线变化
摘要海岸线变化的过程本身是复杂的,海岸线位置的可靠预测仍然是沿海研究的关键挑战。预测海岸线演变可能受益于深度学习(DL),这是最近发展起来的一种广泛成功的数据驱动方法。然而,到目前为止,它在岸线时间序列数据中的应用还很有限。本贡献的目的是研究深度学习算法在预测新西兰研究地点的相机系统观测所得的年际海岸线位置方面的潜力。我们研究了卷积神经网络(cnn)和混合CNN-LSTM(长短期记忆)网络的应用。我们将我们的结果与两个已建立的模型进行了比较:一个是海岸线平衡模型,另一个是解决海岸线驱动因素时间尺度的模型。通过系统搜索和不同的适应度度量,我们发现DL模型在模拟观测值的变异性和分布时优于参考模型。总的来说,这些结果表明DL模型比当前模型具有提高准确性和可靠性的潜力。
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来源期刊
Earth Surface Dynamics
Earth Surface Dynamics GEOGRAPHY, PHYSICALGEOSCIENCES, MULTIDISCI-GEOSCIENCES, MULTIDISCIPLINARY
CiteScore
5.40
自引率
5.90%
发文量
56
审稿时长
20 weeks
期刊介绍: Earth Surface Dynamics (ESurf) is an international scientific journal dedicated to the publication and discussion of high-quality research on the physical, chemical, and biological processes shaping Earth''s surface and their interactions on all scales.
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