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    Deep-Learning-Based Approach for Prediction of Algal Blooms

    New search for: Feng Zhang
    New search for: Yuanyuan Wang
    New search for: Minjie Cao
    New search for: Xiaoxiao Sun
    New search for: Zhenhong Du
    New search for: Renyi Liu
    New search for: Xinyue Ye

    Algal blooms have recently become a critical global environmental concern which might put economic development and sustainability at risk. However, the accurate prediction of algal blooms remains a challenging scientific problem. In this study, a novel prediction approach for algal blooms based on deep learning is presented—a powerful tool to represent and predict highly dynamic and complex phenomena. The proposed approach constructs a five-layered model to extract detailed relationships between the density of phytoplankton cells and various environmental parameters. The algal blooms can be predicted by the phytoplankton density obtained from the output layer. A case study is conducted in coastal waters of East China using both our model and a traditional back-propagation neural network for comparison. The results show that the deep-learning-based model yields better generalization and greater accuracy in predicting algal blooms than a traditional shallow neural network does.

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    Deep-Learning-Based Approach for Prediction of Algal Blooms

    New search for: Feng Zhang
    New search for: Yuanyuan Wang
    New search for: Minjie Cao
    New search for: Xiaoxiao Sun
    New search for: Zhenhong Du
    New search for: Renyi Liu
    New search for: Xinyue Ye

    Algal blooms have recently become a critical global environmental concern which might put economic development and sustainability at risk. However, the accurate prediction of algal blooms remains a challenging scientific problem. In this study, a novel prediction approach for algal blooms based on deep learning is presented—a powerful tool to represent and predict highly dynamic and complex phenomena. The proposed approach constructs a five-layered model to extract detailed relationships between the density of phytoplankton cells and various environmental parameters. The algal blooms can be predicted by the phytoplankton density obtained from the output layer. A case study is conducted in coastal waters of East China using both our model and a traditional back-propagation neural network for comparison. The results show that the deep-learning-based model yields better generalization and greater accuracy in predicting algal blooms than a traditional shallow neural network does.

    Access

    Download

    Deep-Learning-Based Approach for Prediction of Algal Blooms

    New search for: Feng Zhang
    New search for: Yuanyuan Wang
    New search for: Minjie Cao
    New search for: Xiaoxiao Sun
    New search for: Zhenhong Du
    New search for: Renyi Liu
    New search for: Xinyue Ye

    Algal blooms have recently become a critical global environmental concern which might put economic development and sustainability at risk. However, the accurate prediction of algal blooms remains a challenging scientific problem. In this study, a novel prediction approach for algal blooms based on deep learning is presented—a powerful tool to represent and predict highly dynamic and complex phenomena. The proposed approach constructs a five-layered model to extract detailed relationships between the density of phytoplankton cells and various environmental parameters. The algal blooms can be predicted by the phytoplankton density obtained from the output layer. A case study is conducted in coastal waters of East China using both our model and a traditional back-propagation neural network for comparison. The results show that the deep-learning-based model yields better generalization and greater accuracy in predicting algal blooms than a traditional shallow neural network does.

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    Title:

    Deep-Learning-Based Approach for Prediction of Algal Blooms

    Contributors:

    Feng Zhang (author) / Yuanyuan Wang (author) / Minjie Cao (author) / Xiaoxiao Sun (author) / Zhenhong Du (author) / Renyi Liu (author) / Xinyue Ye (author)

    Published in:

    Sustainability, Vol 8, Iss 10, p 1060 (2016)

    Publication date:

    2016

    ISSN:

    2071-1050

    DOI:

    https://doi.org/10.3390/su8101060

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    Unknown

    Keywords:

    algal blooms prediction , deep learning , deep belief networks , East China , coastal areas , Environmental effects of industries and plants , TD194-195 , Renewable energy sources , TJ807-830 , Environmental sciences , GE1-350

    Metadata by DOAJ is licensed under ​CC BY-SA 1.0

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