Prediction of Wave Transmission Characteristics of Low Crested Structures Using Artificial Neural Network
Recently around the world, coastal erosion is paying attention as a social issue. Various constructions using low-crested and submerged structures are being performed to deal with the problems. In addition, a prediction study was researched using machine learning techniques to determine the wave att...
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| Published in | Han-guk haeyang gonghak hoeji (Online) Vol. 36; no. 5; pp. 313 - 325 |
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| Main Authors | , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
한국해양공학회
01.10.2022
The Korean Society of Ocean Engineers |
| Subjects | |
| Online Access | Get full text |
| ISSN | 1225-0767 2287-6715 |
| DOI | 10.26748/KSOE.2022.024 |
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| Abstract | Recently around the world, coastal erosion is paying attention as a social issue. Various constructions using low-crested and submerged structures are being performed to deal with the problems. In addition, a prediction study was researched using machine learning techniques to determine the wave attenuation characteristics of low crested structure to develop prediction matrix for wave attenuation coefficient prediction matrix consisting of weights and biases for ease access of engineers. In this study, a deep neural network model was constructed to predict the wave height transmission rate of low crested structures using Tensor flow, an open source platform. The neural network model shows a reliable prediction performance and is expected to be applied to a wide range of practical application in the field of coastal engineering. As a result of predicting the wave height transmission coefficient of the low crested structure depends on various input variable combinations, the combination of 5 condition showed relatively high accuracy with a small number of input variables defined as 0.961. In terms of the time cost of the model, it is considered that the method using the combination 5 conditions can be a good alternative. As a result of predicting the wave transmission rate of the trained deep neural network model, MSE was 1.3×10-3, I was 0.995, SI was 0.078, and I was 0.979, which have very good prediction accuracy. It is judged that the proposed model can be used as a design tool by engineers and scientists to predict the wave transmission coefficient behind the low crested structure. |
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| AbstractList | Recently around the world, coastal erosion is paying attention as a social issue. Various constructions using low-crested and submerged structures are being performed to deal with the problems. In addition, a prediction study was researched using machine learning techniques to determine the wave attenuation characteristics of low crested structure to develop prediction matrix for wave attenuation coefficient prediction matrix consisting of weights and biases for ease access of engineers. In this study, a deep neural network model was constructed to predict the wave height transmission rate of low crested structures using Tensor flow, an open source platform. The neural network model shows a reliable prediction performance and is expected to be applied to a wide range of practical application in the field of coastal engineering. As a result of predicting the wave height transmission coefficient of the low crested structure depends on various input variable combinations, the combination of 5 condition showed relatively high accuracy with a small number of input variables defined as 0.961. In terms of the time cost of the model, it is considered that the method using the combination 5 conditions can be a good alternative. As a result of predicting the wave transmission rate of the trained deep neural network model, MSE was 1.3×10-3, I was 0.995, SI was 0.078, and I was 0.979, which have very good prediction accuracy. It is judged that the proposed model can be used as a design tool by engineers and scientists to predict the wave transmission coefficient behind the low crested structure. Recently around the world, coastal erosion is paying attention as a social issue. Various constructions using low-crested and submerged structures are being performed to deal with the problems. In addition, a prediction study was researched using machine learning techniques to determine the wave attenuation characteristics of low crested structure to develop prediction matrix for wave attenuation coefficient prediction matrix consisting of weights and biases for ease access of engineers. In this study, a deep neural network model was constructed to predict the wave height transmission rate of low crested structures using Tensor flow, an open source platform. The neural network model shows a reliable prediction performance and is expected to be applied to a wide range of practical application in the field of coastal engineering. As a result of predicting the wave height transmission coefficient of the low crested structure depends on various input variable combinations, the combination of 5 condition showed relatively high accuracy with a small number of input variables defined as 0.961. In terms of the time cost of the model, it is considered that the method using the combination 5 conditions can be a good alternative. As a result of predicting the wave transmission rate of the trained deep neural network model, MSE was 1.3×10-3, I was 0.995, SI was 0.078, and I was 0.979, which have very good prediction accuracy. It is judged that the proposed model can be used as a design tool by engineers and scientists to predict the wave transmission coefficient behind the low crested structure. KCI Citation Count: 1 |
| Author | Soonchul Kwon Woo-Dong Lee Taeyoon Kim Yongju Kwon Jongyeong Kim Byeonggug Kang |
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| Cites_doi | 10.1016/j.oceaneng.2010.07.004 10.1007/978-3-319-44944-9_15 10.12652/Ksce.2020.40.5.0485 10.1016/j.coastaleng.2007.01.001 10.1016/j.oceaneng.2004.11.008 10.9765/KSCOE.2019.31.5.294 10.1016/j.coastaleng.2005.09.005 10.1142/S0578563417500061 10.1080/19942060.2020.1773932 10.1142/9789814277426_0292 |
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| Keywords | Wave transmission Coastal engineering Sensitivity analysis Artificial neural network Prediction |
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| References | Koosheh (ref8) 2020 ref12 ref14 Daemen (ref2) 1991 ref11 ref10 Van der Meer (ref16) 1988 ref17 Daemrich (ref3) 1985 ref7 Calabrese (ref1) 2003 ref9 ref4 ref6 ref5 Seelig (ref13) 1980 Takayama (ref15) 1985 |
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| SubjectTerms | artificial neural network coastal engineering prediction sensitivity analysis wave transmission 해양공학 |
| Title | Prediction of Wave Transmission Characteristics of Low Crested Structures Using Artificial Neural Network |
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