基于树结构Parzen估计器优化集成学习的短期负荷预测方法

短期负荷预测主要用于电力系统实时调度、日前发电计划的制定,对电力系统经济调度、系统的安全运行具有重要意义.国内外在采用智能模型进行短期负荷预测方面开展了大量研究,然而智能预测方法的预测效果较易受到现存方法结构及参数的影响,以及预测对象自身个性差异使得参数难以复用,如何精准快速地获取方法结构与参数成为短期负荷预测的关键难题.对此,提出基于树结构Parzen估计器优化集成学习的短期负荷预测方法,可对方法结构与参数进行快速寻优.将该方法应用于中国南方某省短期负荷预测,以实际算例验证了其对预测精度的有效提升.

Water quality soft-sensor prediction in anaerobic process using deep neural network optimized by Tree-structured Parzen Estimator

Anaerobic process is regarded as a green and sustainable process due to low carbon emission and minimal energy consumption in wastewater treatment plants(WWTPs).However,some water quality metrics are not measurable in real time,thus influencing the judgment of the operators and may increase energy consumption and carbon emission.One of the solutions is using a soft-sensor prediction technique.This article introduces a water quality soft-sensor prediction method based on Bidirectional Gated Recurrent Unit(BiGRU)combined with Gaussian Progress Regression(GPR)optimized by Tree-structured Parzen Estimator(TPE).TPE automatically optimizes the hyperparameters of BiGRU,and BiGRU is trained to obtain the point prediction with GPR for the interval prediction.Then,a case study applying this prediction method for an actual anaerobic process(2500 m^(3)/d)is carried out.Results show that TPE effectively optimizes the hyperparameters of BiGRU.For point prediction of CODeff and biogas yield,R^(2)values of BiGRU,which are 0.973 and 0.939,respectively,are increased by 1.03%–7.61%and 1.28%–10.33%,compared with those of other models,and the valid prediction interval can be obtained.Besides,the proposed model is assessed as a reliable model for anaerobic process through the probability prediction and reliable evaluation.It is expected to provide high accuracy and reliable water quality prediction to offer basis for operators in WWTPs to control the reactor and minimize carbon emission and energy consumption.

基于油中溶解气体特征量筛选的变压器故障诊断方法

油中溶解气体分析对变压器故障预警及诊断具有重要意义。针对油中溶解气体特征量种类众多、故障关联特征分析不足等问题,文中以油浸式变压器为研究对象,提出了基于油中溶解气体特征量筛选的变压器故障诊断方法。首先,对油中溶解气体的原始特征量进行特征衍生,通过随机森林(random forest,RF)计算特征量对故障诊断的重要度,筛选得到最佳特征组合。其次,采用树结构概率密度估计(tree-structured parzen estimator,TPE)实现RF模型的参数寻优,并形成TPE-RF诊断模型。同时,结合多种评价指标,证明所提方法能够对变压器作出准确的故障诊断。最后,提出TreeSAHP模型分析特征量对各故障的重要度,优选出各故障关联的主要特征量,并根据变压器运行案例,探讨了该方法在电力行业现场应用中的适用性,验证了该方法的有效性。

基于CatBoost用信预测模型的TreeSHAP解释性研究

银行客户申请信用贷款在授信通过后,精准预测客户是否用信及分析影响客户用信的关键因素,对提高银行客户服务能力及盈利能力具有重要意义.目前,机器学习算法鲜有在用信预测方面的应用,且金融用信领域缺乏模型可解释性的研究,为此提出一种基于CatBoost的TreeSHAP解释性用信预测模型.通过CatBoost构建用信预测模型,利用3种超参数优化算法对该模型进行对比优化,与基线模型在4项主要性能指标上进行实验对比,结果表明经TPE算法优化后的模型性能均优于其他模型,然后结合TreeSHAP方法从全局和局部的层面增强模型的可解释性,解释性分析客户用信的影响因素,为银行对客户进行精准化营销提供决策依据.

基于电子鼻与LightGBM算法判别葡萄酒品种的研究

针对葡萄酒的鉴别问题,通过电子鼻采集7种葡萄酒的气味信息,应用LightGBM算法对葡萄酒的气味特征进行学习,并运用TPE超参数优化算法对LightGBM算法超参数进行自适应寻优,以5折交叉验证为指标评估模型的性能。试验结果表明LightGBM建立的判别模型对葡萄酒样本的判别准确率为96.62%,优于传统的支持向量机、随机森林、神经网络,验证了LightGBM在葡萄酒品种鉴别中的优越性。