MR-CSC-DMD在格罗茵河模型试验中的性能评价

2023 International Technical Conference on Circuits/Systems, Computers, and Communications (ITC-CSCC) Pub Date : 2023-06-25 DOI:10.1109/ITC-CSCC58803.2023.10212932

Chen Zhang, Eisuke Kobayashi, D. Moteki, H. Yasuda, Kiyoshi Hayasaka, S. Muramatsu

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引用次数: 0

摘要

本文采用动态模态分解(DMD)的一种变体方法，即多分辨率卷积稀疏编码DMD (MR-CSC-DMD)方法，对河床变化的动态模态进行分析，并对存在沟槽时的性能进行了新的评价。在作者之前的工作中，MR-CSC-DMD被用于从水面观测中预测河床波动，其中动态模式被分析而没有任何沟槽。然而，该项目的一个重要任务是阐明Groynes的位置对河道的影响。为了解决这一差距，本工作将MR-CSC-DMD应用于由河流实验装置收集的数据。通过对水面和河床波动时间序列数据的分析，建立了考虑沟槽的河床变化数学时间演化模型。结果表明，groynes的存在影响了MR-CSC-DMD的预测性能。

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Performance Evaluation of MR-CSC-DMD in River Model Experiment with Groynes

This study applies a variant approach of dynamic mode decomposition (DMD), a multi-resolution convolutional-sparse-coded DMD (MR-CSC-DMD) method, to analyze the dynamic modes of riverbed changes, and newly evaluates the performance for the presence of groynes. In an authors' previous work, MR-CSC-DMD was used to predict riverbed undulation from water surface observations, where the dynamic mode was analyzed without any groynes. An important mission in the project, however, is to elucidate the impact of Groynes' placement on river channel. To address this gap, this work applies MR-CSC-DMD to data collected by a river experimental setup with groynes. By analyzing the time series data of the water surface and riverbed undulation, a mathematical time evolution model of riverbed changes is developed by taking the groynes into account. It is shown that the presence of groynes affects the prediction performance of MR-CSC-DMD.

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来源期刊

2023 International Technical Conference on Circuits/Systems, Computers, and Communications (ITC-CSCC)

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