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    Spatio-temporal Convolutional Network Based Power Forecasting of Multiple Wind Farms

    New search for: Xiaochong Dong
    New search for: Yingyun Sun
    New search for: Ye Li
    New search for: Xinying Wang
    New search for: Tianjiao Pu

    The rapidly increasing wind power penetration presents new challenges to the operation of power systems. Improving the accuracy of wind power forecasting is a possible solution under this circumstance. In the power forecasting of multiple wind farms, determining the spatio-temporal correlation of multiple wind farms is critical for improving the forecasting accuracy. This paper proposes a spatio-temporal convolutional network (STCN) that utilizes a directed graph convolutional structure. A temporal convolutional network is also adopted to characterize the temporal features of wind power. Historical data from 15 wind farms in Australia are used in the case study. The forecasting results show that the proposed model has higher accuracy than the existing methods. Based on the structure of the STCN, asymmetric spatial correlation at different temporal scales can be observed, which shows the effectiveness of the proposed model.

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    Spatio-temporal Convolutional Network Based Power Forecasting of Multiple Wind Farms

    New search for: Xiaochong Dong
    New search for: Yingyun Sun
    New search for: Ye Li
    New search for: Xinying Wang
    New search for: Tianjiao Pu

    The rapidly increasing wind power penetration presents new challenges to the operation of power systems. Improving the accuracy of wind power forecasting is a possible solution under this circumstance. In the power forecasting of multiple wind farms, determining the spatio-temporal correlation of multiple wind farms is critical for improving the forecasting accuracy. This paper proposes a spatio-temporal convolutional network (STCN) that utilizes a directed graph convolutional structure. A temporal convolutional network is also adopted to characterize the temporal features of wind power. Historical data from 15 wind farms in Australia are used in the case study. The forecasting results show that the proposed model has higher accuracy than the existing methods. Based on the structure of the STCN, asymmetric spatial correlation at different temporal scales can be observed, which shows the effectiveness of the proposed model.

    Access

    Download

    Spatio-temporal Convolutional Network Based Power Forecasting of Multiple Wind Farms

    New search for: Xiaochong Dong
    New search for: Yingyun Sun
    New search for: Ye Li
    New search for: Xinying Wang
    New search for: Tianjiao Pu

    The rapidly increasing wind power penetration presents new challenges to the operation of power systems. Improving the accuracy of wind power forecasting is a possible solution under this circumstance. In the power forecasting of multiple wind farms, determining the spatio-temporal correlation of multiple wind farms is critical for improving the forecasting accuracy. This paper proposes a spatio-temporal convolutional network (STCN) that utilizes a directed graph convolutional structure. A temporal convolutional network is also adopted to characterize the temporal features of wind power. Historical data from 15 wind farms in Australia are used in the case study. The forecasting results show that the proposed model has higher accuracy than the existing methods. Based on the structure of the STCN, asymmetric spatial correlation at different temporal scales can be observed, which shows the effectiveness of the proposed model.

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    Download

    Access

    Download

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    Document information
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    Title:

    Spatio-temporal Convolutional Network Based Power Forecasting of Multiple Wind Farms

    Contributors:

    Xiaochong Dong (author) / Yingyun Sun (author) / Ye Li (author) / Xinying Wang (author) / Tianjiao Pu (author)

    Published in:

    Journal of Modern Power Systems and Clean Energy, Vol 10, Iss 2, Pp 388-398 (2022)

    Publication date:

    2022

    ISSN:

    2196-5420

    DOI:

    https://doi.org/10.35833/MPCE.2020.000849

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    Unknown

    Keywords:

    Deep learning , spatio-temporal correlation , wind power forecasting , graph conventional network (GCN) , Production of electric energy or power. Powerplants. Central stations , TK1001-1841 , Renewable energy sources , TJ807-830

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

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