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    Short-term wind power forecasting using hybrid method based on enhanced boosting algorithm

    New search for: Yu Jiang
    New search for: Xingying Chen
    New search for: Kun Yu
    New search for: Yingchen Liao

    Day-ahead wind power forecasting plays an essential role in the safe and economic use of wind energy, the comprehending- intrinsic complexity of the behavior of wind is considered as the main challenge faced in improving forecasting accuracy. To improve forecasting accuracy, this paper focuses on two aspects: ①proposing a novel hybrid method using Boosting algorithm and a multi-step forecast approach to improve the forecasting capacity of traditional ARMA model; ②calculating the existing error bounds of the proposed method. To validate the effectiveness of the novel hybrid method, one-year period of real data are used for test, which were collected from three operating wind farms in the east coast of Jiangsu Province, China. Meanwhile conventional ARMA model and persistence model are both used as benchmarks with which the proposed method is compared. Test results show that the proposed method achieves a more accurate forecast.

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    Short-term wind power forecasting using hybrid method based on enhanced boosting algorithm

    New search for: Yu Jiang
    New search for: Xingying Chen
    New search for: Kun Yu
    New search for: Yingchen Liao

    Day-ahead wind power forecasting plays an essential role in the safe and economic use of wind energy, the comprehending- intrinsic complexity of the behavior of wind is considered as the main challenge faced in improving forecasting accuracy. To improve forecasting accuracy, this paper focuses on two aspects: ①proposing a novel hybrid method using Boosting algorithm and a multi-step forecast approach to improve the forecasting capacity of traditional ARMA model; ②calculating the existing error bounds of the proposed method. To validate the effectiveness of the novel hybrid method, one-year period of real data are used for test, which were collected from three operating wind farms in the east coast of Jiangsu Province, China. Meanwhile conventional ARMA model and persistence model are both used as benchmarks with which the proposed method is compared. Test results show that the proposed method achieves a more accurate forecast.

    Access

    Download

    Short-term wind power forecasting using hybrid method based on enhanced boosting algorithm

    New search for: Yu Jiang
    New search for: Xingying Chen
    New search for: Kun Yu
    New search for: Yingchen Liao

    Day-ahead wind power forecasting plays an essential role in the safe and economic use of wind energy, the comprehending- intrinsic complexity of the behavior of wind is considered as the main challenge faced in improving forecasting accuracy. To improve forecasting accuracy, this paper focuses on two aspects: ①proposing a novel hybrid method using Boosting algorithm and a multi-step forecast approach to improve the forecasting capacity of traditional ARMA model; ②calculating the existing error bounds of the proposed method. To validate the effectiveness of the novel hybrid method, one-year period of real data are used for test, which were collected from three operating wind farms in the east coast of Jiangsu Province, China. Meanwhile conventional ARMA model and persistence model are both used as benchmarks with which the proposed method is compared. Test results show that the proposed method achieves a more accurate forecast.

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    Download

    Access

    Download

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    Document information
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    Title:

    Short-term wind power forecasting using hybrid method based on enhanced boosting algorithm

    Contributors:

    Yu Jiang (author) / Xingying Chen (author) / Kun Yu (author) / Yingchen Liao (author)

    Published in:

    Journal of Modern Power Systems and Clean Energy, Vol 5, Iss 1, Pp 126-133 (2017)

    Publication date:

    2017

    ISSN:

    2196-5420

    DOI:

    https://doi.org/10.1007/s40565-015-0171-6

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    Unknown

    Keywords:

    Hybrid method , Multi-step-ahead prediction , Wind power forecast , Boosting algorithm , Time series model , 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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