姓名:成锐
职称:讲师
所在院系(所):mgm美高梅79906输配电所
研究方向(Focus Area):
Ø 智能配用电系统
Ø 电力系统可靠性与韧性
Ø 电力市场与需求侧响应
Ø 运筹学/控制理论/机器学习在智能电网中的应用
联系方式:
办公地址:主楼A831
电子邮箱:ruicheng@ncepu.edu.cn
一、个人简介
成锐,讲师,IEEE Member,2023年8月获爱荷华州立大学(Iowa State University)电气工程博士学位,同年加入mgm美高梅79906,研究方向为智能配用电系统、电力系统可靠性与韧性、电力市场与需求侧响应等,共发表SCI / EI 收录论文15篇,以第一/通讯作者身份发表 SCI / EI 收录论文 8 篇,其中IEEE Transactions on Power Systems 期刊论文3篇,IEEE Transactions on Smart Grid 期刊论文1篇。担任《IEEE Transactions on Power Systems》、《IEEE Transactions on Smart Gird》等期刊审稿人, 曾获爱荷华州立大学卓越研究奖 (Research Excellence Award),IEEE PESGM会议最佳论文等奖项。
二、教学与人才培养情况
学生培养:本人每年招收硕士研究生1-2名/年,所在实验室具有充足的科研设备资源,完善的培养体系,欢迎有兴趣同学来实验室交流参观!
三、代表性论著(“*”代表通讯作者)
[1] R. Cheng, L. Tesfatsion* and Z. Wang. A consensus-based transactive energy design for unbalanced distribution networks [J]. IEEE Transactions on Power Systems, 2023, 38(1): 114-128.
[2] R. Cheng, Z. Wang*, Y. Guo, An online feedback-based linearized power flow model for unbalanced distribution networks [J]. IEEE Transactions on Power Systems, 2022, 37(5): 3552-3565.
[3] R. Cheng, Z. Wang*, Y. Guo, Q. Zhang, Online voltage control for unbalanced distribution networks using projected Newton method [J], IEEE Transactions on Power Systems, 2022, 37(6): 4747-4760.
[4] R. Cheng, N. Shi, S. Maharjan, Z. Wang*, Automatic self-adaptive local voltage control under limited reactive power [J], IEEE Transactions on Smart Grid, 2023, 14(4): 2851-2862.
[5] 成锐,刘文霞*,金秋龙,等.基于分布估计和智能存储的复杂电网可靠性评估方法[J].中国电机工程学报, 2017, 37(19):8.
[6] F. Bu, R. Cheng, Z. Wang*, A two-layer approach for estimating behind-the-meter PV generation using smart meter data [J], IEEE Transactions on Power Systems, 2023, 38(1): 885-896.
[7] N. Shi, R. Cheng, L. Liu, Z. Wang*, Q. Zhang, Data-driven affinely adjustable robust volt/var control [J], IEEE Transactions on Smart Grid, to appear, 2023.
[8] D. Wang, Y. Yuan, R. Cheng, Z. Wang*, Data-driven outage restoration time prediction via transfer learning with cluster ensembles [J], IEEE Transactions on Power Systems, to appear, 2023.
[9] Z. Ma, Z.Wang*, R. Cheng, Analytical large-signal modeling of inverter-based microgrids with koopman operator theory for autonomous control [J], IEEE Transactions on Smart Grid, to appear, 2023.
[10] R. Cheng*, N. Shi, Z. Wang, Fast ADMM-based hierarchical and decentralized volt/var control in distribution networks [C], 2022 IEEE Power & Energy Society General Meeting, Denver, Colorado, U.S.A., 2022.