Intelligent Early-warning of Collusion Between Power Generation Enterprises Based on Variational Autoencoding Gaussian Mixture Model

被引：0

作者：

Hua H. ^{[1
]}

Deng B. ^{[1
]}

Liu Z. ^{[2
]}

Zhang L. ^{[1
]}

机构：

[1] State Key Laboratory of Alternate Electrical Power System with Renewable Energy Sources (North China Electric Power University), Baoding

[2] State Grid Shanghai Municipal Electric Power Company, Shanghai

来源：

Dianli Xitong Zidonghua/Automation of Electric Power Systems | 2022年 / 46卷 / 04期

关键词：

Collusion; Electricity market; Intelligent early-warning; Power generation enterprise; Variational autoencoding Gaussian mixture model (VAEGMM);

D O I：

10.7500/AEPS20201118006

中图分类号：

学科分类号：

摘要：

As the scale of market transactions becomes larger and the amount of transaction data increases, it becomes possible to conduct collusion analysis with data. Therefore, combining with the collusion early-warning indicator system of the power generation enterprises and the unsupervised variational autoencoding Gaussian mixture model (VAEGMM), the intelligent early-warning of the collusion between power generation enterprises is realized. Firstly, a complete indicator system for the collusion early-warning and a detailed indicator calculation method are proposed. Secondly, in view of the high-dimensional data characteristics of the index set and the imbalance of positive and negative samples, the VAEGMM is proposed based on the idea of anomaly detection. Then, the network structure of VAEGMM is described in detail, and the joint loss function is reconstructed, making the network better learn the low dimensional expression of the original data. Thus it is helpful for more accurate density estimation. Finally, the actual case study shows that compared with other traditional unsupervised learning models, VAEGMM can warn the risk of collusion more efficiently and accurately. © 2022 Automation of Electric Power Systems Press.

引用

页码：188 / 196

页数：8

共 33 条

[11] JIANG Wei, WU Jie, FENG Wei, Et al., Bilateral game model of power supply and demand sides with incomplete information in day-ahead electricity market, Automation of Electric Power Systems, 43, 2, pp. 18-24, (2019)
[12] ESMAEILI ALIABADI D, KAYA M, SAHIN G., Determining collusion opportunities in deregulated electricity markets, Electric Power Systems Research, 141, pp. 432-441, (2016)
[13] SHI Shuhong, LIU Dunnan, HU Huiwen, Et al., Identification of violations in the whole process of electricity market transactions, Price: Theory & Practice, 8, pp. 51-54, (2018)
[14] LIU Dunnan, LI Ruiqing, CHEN Xueqing, Et al., Surveillance indices and evaluating system of electricity market, Automation of Electric Power Systems, 28, 9, pp. 16-21, (2004)
[15] TELLIDOU A C, BAKIRTZIS A G., Agent-based analysis of capacity withholding and tacit collusion in electricity markets, IEEE Transactions on Power Systems, 22, 4, pp. 1735-1742, (2007)
[16] LIANG Y C, GUO C L, DING Z H, Et al., Agent-based modeling in electricity market using deep deterministic policy gradient algorithm, IEEE Transactions on Power Systems, 35, 6, pp. 4180-4192, (2020)
[17] LIU Dunnan, ZHANG Qian, LI Xiaotong, Et al., Identification of potential harmful behaviors in electricity market based on cloud model and fuzzy Petri net, Automation of Electric Power Systems, 43, 2, pp. 25-33, (2019)
[18] ZHANG Haisheng, CAO Zhe, YANG Changhai, Et al., Collusive behavior recognition in electricity market based on AdaBoost-DT algorithm, Electric Power Engineering Technology, 39, 2, pp. 152-158, (2020)
[19] KIM K I, FRANZ M O, SCHOLKOPF B., Iterative kernel principal component analysis for image modeling, IEEE Transactions on Pattern Analysis and Machine Intelligence, 27, 9, pp. 1351-1366, (2005)
[20] HUBER P J., International encyclopedia of statistical science, pp. 1248-1251, (2011)

← 1 2 3 4 →