运筹与管理2025,Vol.34Issue(12):152-158,7.DOI:10.12005/orms.2025.0388
适应概念漂移的风电功率爬坡事件在线预测研究
Study on Online Prediction for Wind Power Ramp Events Adapting to Concept Drift
摘要
Abstract
Developing renewable energy generation is a crucial measure in achieving the strategic goals of"carbon peaking and carbon neutrality."The construction of a new power system dominated by renewable energy demands higher flexibility from the power grid.As a typical representative of renewable energy,wind power has become an integral component of the global power system,owing to its abundant resources,minimal environmen-tal impact and well-established industrial foundation.Wind power ramp events refer to the sharp fluctuations in wind power output over short time intervals.With the continuous growth in wind power capacity and its increasing share in the energy mix,these ramp events have emerged as a significant risk factor affecting the economic and reliable operation of power grids.The potential impact on grid stability is substantial.However,wind power ramp events exhibit complex characteristics,including transience,uncertainty and non-linearity,which pose significant challenges for accurate prediction.Reliable forecasting of wind power ramp events is essential for facilitating wind power integration,guiding rational grid dispatch,and mitigating the risks of power imbalances due to wind power grid integration. This paper proposes an online prediction framework for wind power ramp events that adapts to concept drift,which consists of an online prediction module,a trend compression module and a ramp identification module.First,based on the adaptive random forest model,the wind power output online prediction module is construc-ted,which uses an online ensemble learning method to adaptively update the model parameters,adapt to the concept drift in wind power output,and achieve accurate power prediction.Second,based on the swinging door algorithm optimized by the Grey Wolf Optimization(GWO),the trend compression module is constructed,which calculates the optimal tolerance coefficient and compresses the power prediction data,extracts the significant trend,and reduces the interference of noise data on ramp prediction.Finally,based on the fluctuation trend-based ramp identification algorithm,the ramp identification module is constructed,which avoids the multiple and false detection caused by complex local fluctuations,and identifies the ramp events to obtain the final ramp prediction results.The integration of these modules ensures both the accuracy and robustness of the wind power ramp event predictions. In the empirical study,this paper utilizes wind power data from two wind farms located in the Fujian and Zhejiang provinces in China to validate the proposed framework.Additionally,three error metrics and three accuracy metrics are employed to evaluate the prediction performance of the framework.The results indicate that the framework outperforms several benchmark models in terms of both prediction accuracy and robustness.Nota-bly,the adaptive random forest model effectively addresses concept drift in the wind power data,enhancing the model's generalization ability.Moreover,the GWO algorithm optimizes the parameters of the swinging door algorithm,determining the optimal tolerance coefficient for different wind farm data,which aligns the compres-sion results more closely with the fluctuations in wind power.The fluctuation trend-based ramp identification method mitigates multiple and false detections caused by minor local fluctuations in wind power,accurately capturing various types of ramp events. In summary,the online prediction framework for wind power ramp events,which adapts to concept drift,demonstrates strong predictive performance.This framework holds significant potential for optimizing the opera-tional control and scheduling strategies of wind farms,thereby enhancing the economic efficiency and reliability of wind power.Additionally,its ability to handle real-time data fluctuations makes it suitable for practical appli-cations in diverse wind farm environments.Based on this framework,future research could integrate wind power data into numerical weather prediction data to improve ramp events predictions,further enhancing the model's predictive capabilities.关键词
风电功率/爬坡事件/概念漂移/在线预测Key words
wind power/ramp events/concept drift/online prediction分类
自科综合引用本文复制引用
王聚杰,徐文杰,索玮岚..适应概念漂移的风电功率爬坡事件在线预测研究[J].运筹与管理,2025,34(12):152-158,7.基金项目
国家自然科学基金资助项目(71971122,72371136,72074207) (71971122,72371136,72074207)
