基于SHAP-XGBoost混合模型的梯级水电站流量动态滞时研究

闫孟婷<sup>1</sup>; 毛玉鑫<sup>2</sup>; 张天遥<sup>1</sup>; 胡 杨<sup>2</sup>; 黄炜斌<sup>1</sup>; 马光文<sup>1</sup>

引用本文:	闫孟婷,毛玉鑫,张天遥,等.基于SHAP-XGBoost混合模型的梯级水电站流量动态滞时研究[J].电力系统保护与控制,2023,51(11):159-167.[点击复制]
	YAN Mengting,MAO Yuxin,ZHANG Tianyao,et al.Dynamic hysteresis of cascade hydropower station discharge based onSHAP-XGBoost hybrid model[J].Power System Protection and Control,2023,51(11):159-167[点击复制]

【打印本页】【在线阅读全文】【下载PDF全文】【查看/发表评论】【下载PDF阅读器】【关闭】

←前一篇|后一篇→

过刊浏览高级检索

本文已被：浏览 5423次下载 1008次	码上扫一扫！
基于SHAP-XGBoost混合模型的梯级水电站流量动态滞时研究
闫孟婷¹,毛玉鑫²,张天遥¹,胡杨²,黄炜斌¹,马光文¹
分享到：微信更多字体:加大+\|默认\|缩小-
(1.四川大学水利水电学院，四川成都 610065;2.中国长江电力股份有限公司，湖北宜昌 443002)

摘要:

水流滞时是影响梯级电站短期优化调度的重要因素。如何构建流量动态滞时模型以精确描述梯级水电上下游水力联系，成为水电短期优化调度中亟需解决的问题。尝试引入极端梯度提升树算法(eXtreme gradient boosting, XGBoost)作为表现梯级水电站间流量动态滞时的工具。首先利用沙普利加性解释(Shapley addictive explanation, SHAP)评估各输入特征重要性，并从中选择最优特征集。其次建立了一种基于极端梯度提升树的动态滞时模型，利用网格搜索和交叉验证算法对模型参数进行选取。最后基于实际案例与人工神经网络、支持向量回归及固定滞时模型进行对比实验。结果表明，所构建的SHAP-XGBoost模型能更准确地模拟水电站间动态滞时关系，与传统模型相比平均预测精度至少提高了18%，且与实测序列的变化趋势匹配程度最佳。同时证明了输入特征筛选的加入能够使模型精度进一步提高。

关键词: 梯级电站动态滞时数据挖掘极端梯度提升树沙普利加性解释

DOI：10.19783/j.cnki.pspc.221501

投稿时间：2022-09-20修订日期：2022-11-21

基金项目:国家重点研发计划项目资助(2016YFC0402208，2018YFB0905204)

Dynamic hysteresis of cascade hydropower station discharge based onSHAP-XGBoost hybrid model

YAN Mengting¹,MAO Yuxin²,ZHANG Tianyao¹,HU Yang²,HUANG Weibin¹,MA Guangwen¹

(1. College of Water Resource and Hydropower, Sichuan University, Chengdu 610065, China; 2. China Yangtze Power Corporation Limited, Yichang 443002, China)

Abstract:

Water hysteresis is an important factor affecting the short-term optimal dispatch of cascade hydropower stations. How to construct a dynamic hysteresis model to accurately describe the upstream and downstream hydraulic connections of cascade hydropower has become an urgent problem to be solved in the short-term optimal dispatch of hydropower. This paper attempts to introduce the eXtreme Gradient Boosting (XGBoost) algorithm as a tool to express the dynamic water hysteresis between cascade hydropower stations. First, it uses the Shapley addictive explanation (SHAP) to evaluate the importance of each input feature and select the optimal feature set. Second, a dynamic hysteresis model based on an extreme gradient lifting tree is established. Grid search and cross-validation algorithms are used to select the model parameters. Finally, based on an actual case, comparative experiments with artificial neural networks, support vector regression and a fixed time-lag model are carried out. The results show that the constructed SHAP-XGBoost model can simulate the dynamic hysteresis relationship between hydropower stations more accurately, the average prediction accuracy of the proposed model is improved by at least 18% compared with other models, and it can best match the change trend of the measured sequence. It is also proved that the addition of input feature screening can further improve the model accuracy.

Key words: cascade hydropower station dynamic flow lag time data mining extreme gradient boosting Shapley addictive explanation

X关闭