马晓阳,博士,副教授,硕士生导师
专业:电力系统自动化,方向:新能源并网控制;电能质量分析;新型电力系统稳定性分析
Email:mxy_scu@163.com 邮编:610065
地址:成都市一环路南一段24号,威尼斯wnsr888
学习和工作经历:
·2021.12-2022.12,清华大学电机系,访问学者
·2021.06至今,威尼斯wnsr888,副教授
·2018.07-2021.06,威尼斯wnsr888,助理研究员
·2013.09-2018.06,四川大学,电力系统及其自动化,博士
·2009.09-2013.06,四川大学,电力系统及其自动化,学士
发表的代表性论文:
1) 部分SCI文章
[1]Ma Xiaoyang, Liao Zheng, Wang Ying*, et al. Fast Dynamic Phasor Estimation Algorithm considering DC Offset for PMU Applications[J].IEEE Transactions on Power Delivery,2023,early access.
[2]Ma Xiaoyang, Wan Yuheng, Wang Ying*,et al. Multi-Parameter Practical Stability Region Analysis of Wind Power System Based on Limit Cycle Amplitude Tracing[J].IEEE Transactions on Energy Conversion,2023,early access.
[3]Ma Xiaoyang, Luo Hong, Yang Honggeng, et al. The Measurement and Analysis of Dense Frequency Signals Considering New Energy Integration[J]. IEEE Transactions on Power Delivery,2021.
[4]Ma Xiaoyang, Yang Qiuling, Yang Honggeng, et al. Harmonic and Interharmonic Analysis of Mixed Dense Frequency Signals[J]. IEEE Transactions on Industrial Electronics,2021.
[5]Ying Wang, Mengjie Yu, Ma Xiaoyang*, et al. A General Harmonic Probability Model based on Load Operating states identification, IEEE Transactions on Power Delivery,2022.
[6]Wang Ying, Xu Rui,Ma Xiaoyang*, et al. Spectral Graph Theory-Based Recovery Method for Missing Harmonic Data[J]. IEEE Transactions on Power Delivery,2022.
[7]Wang Ying, Yixuan Yang, Ma Xiaoyang*, et al. Load Loss Rate Evaluation Method of Sensitive Users Under Voltage Sag Based on Monitoring Data[J]. IEEE Transactions on Power Delivery,2022.
[8]Zheng Diwen, Ma Xiaoyang*, Wang Ying, et al. Non-intrusive Load Monitoring Based on the Graph Least Squares Reconstruction Method[J]. IEEE Transactions on Power Delivery,2022.
[9] Qiang Fu, Wenjuan Du, Haifeng Wang*, Ma Xiaoyang,et al. DC Voltage Oscillation Stability Analysis of DC-Voltage-Droop-Controlled Multiterminal DC Distribution System Using Reduced-Order Modal Calculation[J]. IEEE Transactions on smart grid,2022.
[10] Wang Ying, Xu Rui, Ma Xiaoyang*, et al. Harmonic State Estimation Based on Graph Signal Processing[J]. IET Generation Transmission & Distribution,2021.
[11]Jiaoyu Zheng, Liao Zheng, Ma Xiaoyang*, et al. Dense-Frequency Signal-Detection Based on the Primal–Dual Splitting Method[J]. Entropy,2022.
[12]Xiao Xianyong, Zhou Runze, Ma Xiaoyang*. A novel method for estimating utility harmonic impedance based probabilistic evaluation[J]. IET Generation Transmission & Distribution,2022.
[13]Zhao Jinshuai, Ma Xiaoyang*, Yang Honggeng. Improved Modal Sensititivity Analysis-Based Method for Harmonic Resonance Mitigation[J]. Electric Power Systems Research,2021.
[14]Wang Ying, Yang Yixuan, Ma Xiaoyang*, et al. Unbalanced responsibility division considering renewable energy integration[J]. IET Generation Transmission & Distribution,2020.
[15]Wang Guangui, Ma Xiaoyang*, Yang Honggeng, et al. Multi-Harmonic Sources Location Based on Sparse Component Analysis and Complex Independent Component Analysis[J]. IET Generation Transmission & Distribution,2020.
[16]Chen Chang, Ma Xiaoyang*, Yang Honggeng, et al. Study on the Power-frequency Waves Distribution Characteristics for Half-Wavelength Transmission Lines Based on the Frequency length Factor[J]. Mathematical Problems in Engineering,2020.
[17]Zhao Jinshuai, Yang Honggeng, Ma Xiaoyang*, et al. Evaluation of Harmonic Contribution for Multi-Harmonic Sources System Based on Mixed Entropy Screening and Improved Independent Component Analysis Method[J]. Entropy,2020.
[18]Du Yongzhe, Yang Honggeng, Ma Xiaoyang*. Multi-Harmonic Source Localization Based on Sparse Component Analysis and Minimum Conditional Entropy[J]. Entropy,2020.
[19]Pu Yuting, Yang Honggeng, Ma Xiaoyang*, et al. Recognition of Voltage Sag Sources Based on Phase Space Reconstruction and Improved VGG Transfer Learning[J]. Entropy,2019.
[20]Yang Yixuan, Wang Ying, Ma Xiaoyang*. Determining the Responsibility of Three-Phase Unbalanced Sources Based on RICA[J]. Energies,2019.
[21]Pu Yuting, Yang Honggeng, Ma Xiaoyang*. Analysis and Evaluation of Voltage Sag Severity Based on Data Mining and Improved Target Theory[J]. Automation of Electric Power System,2019.
[22]Ma Xiaoyang, Yang Honggeng. IMC robust control for high voltage ride-through of doubly-fed induction wind generator[J]. IEEJ Transactions on Electrical and Electronic Engineering,2018.
[23]Ma Xiaoyang, Yang Honggeng, et al. Robust Controller Design of Doubly Fed Induction Wind Generator Based on IMC Theory[J]. Chinese Journal of Scientific Instrument,2016.
2)部分国内期刊文章
[1]罗鸿,马晓阳*. 电力系统密集型频率信号的测量与分析[J/OL]. 中国电机工程学报:1-15. https://doi.org/10.13334/j.0258-8013.pcsee.202568.
[2]杜文龙,杨洪耕,马晓阳*. 基于快速独立分量分析的谐波间谐波频谱分离算法[J].电力系统自动化,2020,(13):115-124.
[3]浦雨婷,杨洪耕,马晓阳*. 基于数据挖掘与改进灰靶的电压暂降严重度分析与评估[J]. 电力系统自动化,2020,(2):198-213.
[4]林瑞星,马晓阳*,常晓青,徐琳,丁理杰,杨洪耕. 电网电压不对称暂降下考虑Chopper动作的双馈风机转子电流分析[J]. 电力系统及其自动化学报,2019,(4):106-112.
[5]谭鹏,杨洪耕,马晓阳*,徐方维. 计及风电场侧谐波阻抗影响的谐波发射水平评估[J]. 电力自动化设备,2019,(4):167-173.
[6]杨洪耕,赵曦,王迪,马晓阳*. 孤岛微电网电压源型逆变器和SVC交互影响分析[J]. 高电压技术,2017,(10):3273-3279.
[7]马晓阳,杨洪耕,徐方维,赵海杉. 基于舒茨—基布逊法的双馈风机直流侧电压抑制[J]. 电力系统自动化,2017,(24):177-183.
[8]尹青,杨洪耕,马晓阳* 考虑多重不确定参数的配电网概率无功优化[J]. 电力系统保护与控制,2017,(7):141-147.
[9]杨雪萍,杨洪耕,马晓阳*,曾巧燕. 基于核独立分量分析的谐波责任划分[J]. 电力系统及其自动化学报,2016,(12):109-114.
[10]马晓阳,杨洪耕,曾果,尹青,袁林. 采用内模控制理论的双馈感应风机鲁棒控制器设计[J]. 仪器仪表学报,2016,(11):2528-2535.
[11]尹青,杨洪耕,马晓阳*. 含大规模风电场的电网概率无功优化调度[J].电网技术,2017,(2):514-520.
[12]马晓阳,杨洪耕. 基于等效转子电压的双馈感应发电机灭磁控制[J].四川大学学报(工程科学版),2016,(5):159-166.
[13]唐振东,杨洪耕,马晓阳*,谭洋洋. 偏远地区风电场的并网谐振现象分析[J]. 电网技术,2016,(5):1415-1421.
[14]马晓阳,杨洪耕. 基于Tire树的电能质量数据交换格式文件一致性检测[J]. 电力系统自动化,2016,(2):134-140.
3)部分会议文章
[1]Wang Jinhao, Lei Da, Ma Xiaoyang*, Yang Honggeng.Research on the test of communication protocol of power quality monitoring platform. 2019 IEEE PES Innovative Smart Grid Technologies Asia.
[2]Li Wei, Fang Dingjiang, Wu Wenbing, Ding Kai, Ma Xiaoyang*, Xu Rui. Location of multi-harmonic source based on FAJD method. The 4th IEEE Conference on Energy Internet and Energy System Integration.
[3]Li Wei, Fang Dingjiang, Wu Wenbing, Ding Kai, Ma Xiaoyang*, , Xu Rui. Study on the power frequency distribution characteristics for half-wavelength transmission lines based on the frequency-length factor. The 4th IEEE Conference on Energy Internet and Energy System Integration.
[4]Li Wei, Fang Dingjiang, Wu Wenbing, Ding Kai, Ma Xiaoyang, Xu Rui*. Inter-harmonic detection based on blind source separation algorithm. The 4th IEEE Conference on Energy Internet and Energy System Integration.
[5]Chang Xiao, Li Huipeng, Zhang Shifeng, Gao Le, Ma Xiaoyang*, Pu Wei. Harmonic resonance analyzing for wind farm based on eigenvalue decomposition.The 4th IEEE Conference on Energy Internet and Energy System Integration.
科研项目:
1.计及线路分布参数演变规律的风电并网系统宽频谐振稳定性边界研究, 国家自然科学基金-青年基金项目,2021-2023, 负责人
2.国网湖北电科院2021年县域级高比例可再生能源项目(宽频谐波监测装置试制),2021-2022,负责人
3.高比例直流馈入城市电网谐波传导特征和抑制措施研究,2018-2019,负责人
4.国网湖北电科院2019年数字式电能质量监测终端检验技术研究及应用算法研究,2019-2020,负责人
5.国网湖北电科院2019年数字式电能质量监测终端检验技术研究及应用装置试制,2019-2020,负责人
6.谐波、间谐波等问题的机电-电磁仿真模型及解决方案研究,2020-2022,负责人
7.博士后经费-交叉学科创新培育项目,2019-2021,负责人
8.新一代电力系统中谐波发射水平评估理论与方法研究(51877141),国家自然科学基金面上项目,2019-2022,参加
9.数模一体化电能质量监测终端自动检测平台,2019-2020,负责人
10.数字式电能质量监测终端检验平台,2019-2020,负责人
11.数字式电能质量监测终端检验技术算法,2019-2020,负责人
12.全电缆供电区域供电质量提升关键技术研究,2019-2020,参加
13.配电网低频非平稳间谐波防治关键技术研究及应用—间谐波源测试与传播特性验证,2019-2021,负责人
14.新能源电站谐波特性评估方法研究,2017-2019,参加
15.含大规模新能源发电的半波长输电系统的谐波影响分析及应对措施研究,2016-2018,参加
16.电能质量扰动沿输电线路传播机理研究(51477105),国家自然科学基金面上项目,2015-2018,主研
17.多直流系统谐波影响及不稳定特性的研究,2014-2016,参加
18.电能质量监测信息智能检索关键技术研究(51077095),国家自然科学基金面上项目,2011-2014,主研
19.主动配电网的电能质量综合监控系统开发与应用,863子课题,2013-2014,主研
荣誉奖励:
1.国标《电动汽车充换电站电能质量测试评价技术规范》主要起草人之一
2.国标《动态无功补偿装置并列运行协调控制通用要求》主要起草人之一
3.国标《无功补偿和谐波治理装置术语》主要起草人之一
4.中国电力企业联合会颁发的电力科技创新奖2022年一等奖,《电力电子装备高占比电力系统宽频谐波与谐振防治关键技术及应用》,第一单位排名第五
专利:
[1] A Novel Optimal Configuration Method for Harmonic Measurment Devices,专利号: 2021100254,专利类型:发明专利,排名:第一【已授权】
[2] A Method for Tracing Harmonic Sources of Power Systems, 专利号:2021100387, 专利类型:发明专利,排名:第一【已授权】
[3]一种单相谐波数据丢失的修复方法及系统,专利号: 202111006426,专利类型:发明专利,排名:第一【已授权】
[4]一种基于快速交替算法的宽频密集频率信号分析方法,专利号: 202210799068,专利类型:发明专利,排名:第一【已授权】
人才培养:
本科课程:《继电保护原理》
研究生课程:《工程伦理》、《新型馈线自动化系统》、《能源互联网中通信与信息处理技术》、《智能变电站微机保护技术与应用》
学术任职:
IEEE 会员,中国电机工程学会会员,2022 IEEE IAS Industrial and Commercial Power System Asia 配电网分委会常务理事,2021 年 IEEE PES 电力系统控制技术 委员会配电网保护与控制分委会副秘书长。担任IEEE Transactions on Instrumentation and Measurement, Energy, IET Generation, Transmission & Distri-bution, CSEE Journal of Power and Energy Systems, International Journal of Electrical Power & Energy Systems, Electric Power Systems Research, Journal of Modern Power and Clean Energy, CSEE Journal of Power and Energy Systems, Inter-national Transactions on Electrical Energy Systems, 中国电机工程学报、电力系统自动化、电力系统保护与控制等多个期刊审稿人。
每年可招收研究生3-4人,欢迎广大学子加入!