发表论文266篇，其中SCI检索35篇，EI检索179篇，部分论文列表如下：

A1.国外期刊论文（SCI源）

[1] R. Fu, X. Wang, L. Li and X. Lyu.Analytic Quantification of Controllers Interaction of Weak Grid Tied VSC in Current Control Timescale[J]. IEEE Transactions on Energy Conversion, 2023. (Early Access)

[2] Che Y, Lyu X, Wang X. Time sequence three-phase probabilistic power flow calculation for power system including traction station load of high-speed railway[J]. International Journal of Electrical Power & Energy Systems, 2023, 152: 109222.(WOS:001001295600001)

[3] Yu S, Wang X, Zhang X P. A sensitive single-end DC line fault detection method for MMC-HVDC grids using reactor voltage ratio[J]. International Journal of Electrical Power & Energy Systems, 2023, 148, 0142-0615. (WOS:000929416700001).

[4] M. Chang, X. Wang, X. Lv and R. Kong. Modeling and Low-Frequency Oscillation Analysis of an Asymmetrical Traction Power System Connected to Power Grid[J]. IEEE Transactions on Transportation Electrification, 2023,9(1):1750-1764. (WOS:000966777600001)

[5] Ruiqing Fu, Longyuan Li, Xiaoru Wang, Xiaoqin Lyu. Analysis and Suppression of the Oscillation of Weak Grid-Tied VSC Using RLC Circuit Model[J]. CSEE Journal of Power and Energy Systems, 2022. (Accept)

[6] W. Wu, X. Wang, H. Rao and B. Zhou. Delay-dependent Wide-area Damping Controller Synthesis Approach Using Jensen's Inequality and Evolution Algorithm. CSEE Journal of Power and Energy Systems, 2023,9(5), 1774-1785.( WOS:001094443400016)

[7] Ruiqing Fu, Xiaoru Wang, Yu Zhang, Longyuan Li. Inertial and Primary Frequency Response of PLL synchronized VSC Interfaced Energy Resources[J]. IEEE Transactions on Power Systems, 2022, (37)4: 2998-3013. (WOS: 000812533700044)

[8] Yulong Che, Xiaoru Wang, Xiaoqin, Hongjian Lin. Correlation analysis of traction load sequences based on optimal delay method[J]. International Journal of Electrical Power & Energy Systems, 2022, 142: 108356. (WOS: 000809849100003)

[9] Longyuan Li, Ruiqing Fu, Xiaoqin Lv, Xiaoru Wang. Oscillation Characteristics Analysis and Equivalent Modeling of Multiple Weak Grid Connected CIGs[J]. CSEE Journal of Power and Energy Systems,2021. (Early Access)

[10] Xiaoqin Lv, Xiaoru Wang, Yulong Che, Longyuan Li. Dynamic Phasor Modelling and Low-frequency Oscillation Analysis of the Single-phase Vehicle-grid System[J]. CSEE Journal of Power and Energy Systems, 2020, 9(1), 2096-0042. (WOS:000932849000015)

[11] Che Y, Wang X, Lv X, et al. Probabilistic load flow using improved three point estimate method[J]. International Journal of Electrical Power & Energy Systems, 2020, 117, 0142-0615. (WOS:000510527500035)

[12] Fan Chengwei, Chen Zhen, Wang Xiaoru, Teng Yufei, Che Gang, Zhang Hua. Solution of dynamic power flow technique considering governor nonlinearity[J]. International Transactions On Electrical Energy Systems,2020,30(2). (WOS: 000485415700001)

[13] Xiaoqin Lv, Xiaoru Wang, Yulong Che, and Ruiqing Fu. Eigenvalue-based harmonic instability analysis of electrical railway vehicle-network system [J]. IEEE Transactions on Transportation Electrification, 2019, 5(3): 727-744. (WOS: 000487201100013)

[14] Yulong Che, X. Wang, X. Lv, Y. Hu, Y. Teng. Study on probability distribution of electrified railway traction loads based on kernel density estimator via diffusion[J]. International Journal of Electrical Power and Energy Systems (2019) 106:383-391. (WOS:000454377000035)       

[15] Chengwei Fan, Yufei Teng, Jian Xie, Xiwaoru Wang, “Steady frequency prediction algorithm for power system with governor deadband”, International Transactions on Electrical Energy Systems, 2018, 28(1): e2480. (WOS: 000419984500015)       

[16] Wencheng Wu, Xiaoru Wang. Multi-Core CPU Parallel Power Flow Computation in AC/DC System Considering DC Control. Electric Power Components & Ssytems,2017,45(9):990-1000. (WOS:000403830900006)     

[17] Jinqiang Liu, Xiaoru Wang, Yun Lu, A novel hybrid methodology for short-term wind power forecasting based on adaptive neuro-fuzzy inference system. Renewable Energy, 2017, 103: 620-629. (WOS: 000392769800053)    

[18] Longyuan LI, Yufei Teng, Xiaoru Wang, Dynamic equivalent modeling of wind farm considering the uncertainty of wind power prediction and a case study, Journal of Renewable and Sustainable Energy, 2017, vol. 9, no. 1, pp. 013301. (WOS: 000395000000007)    

[19] Chengwei Fan, Xiaoru Wang, Yufei Teng, Wencheng Wu. Minimum frequency estimation of power system considering governor deadbands. IET Generation, Transmission and Distrubution.2017, vol. 11(15), 3814-3822. (WOS: 000415379700019)    

[20] Pengfei Xu; Xiaoru Wang; Venkataramana Ajjarapu. Adaptive Critical Eigenvalues Tracing via Projected Continuation of Invariant Subspace. IET Generation Transmission & Distribution, 2017, 11 (8). (WOS: 000404888400027)    

[21] Hu Bowei, Sun Jingtao, Ding Lijie, Liu Xinyu, Wang Xiaoru Dynamic equivalent modeling for small and medium hydropower generator group based on measurements[J]. Energies, 2016, 9:5. (WOS: 000377263400054)

[22] Feifei Bai, LinZhu, Yilu Liu, Xiaoru Wang, KaiSun, Yiwei Ma, Mahendra Patel, Evangelos Farantatos, Navin Bhatt. Design and Implementation of a Measurement-based Adaptive Wide-Area Damping Controller Considering Time Delays[J]. Electrical Power System Research,2016,130:1-9. (WOS: 000367498500001)

[23] Feifei Bai, Xiaoru Wang, Yilu Liu, Xinyu Liu, Yue Xiang, Yong Liu. Measurement-based Power System Frequency Dynamic Response Estimation Using Geometric Template Matching and Recurrent Artificial Neural Network[J]. CSEE Journal of Power System and Energy Systems,2016, Vol. 2, No. 3, pp.10-18. (WOS: 000387775000002)

[24] Peng Zhang,Yufei Teng, Xiaoru Wang, Xiangchao Wang. Estimation of interarea electromechanical modes during ambient operation of the power systems using the RDT-ITD method[J]. International Joural of Electrical Power Systems,2015,71:285-289. (WOS: 000354591800029)

[25] Feifei Bai, Yilu Liu, Kai Sun, Navin Bhatt, Alberto Del Rosso, Evangelos Farantatos, Xiaoru Wang. Measurement-Based Correlation Approach for Power System Dynamic Response Estimation[J]. IET generation, Transmission & Distribution,2015,9(12): 1474-2484. (WOS: 000360478500027)

[26] Peng Zhang, Xiaoru Wang, Xiangchao Wang, James S. Thorp. Synchronized measurement based estimation of inter-area electromechanical modes using the Ibrahim time domain method[J]. Electric Power Systems Research,2014,111:85-95. (WOS: 000335873800011)

[27] Li Ming and Wang Xiaoru. The Spectral Analysis of Stator Interharmonic Currents of Induction Motors with Oscillating Mechanical Loads[J]. International Transactions on Electrical Energy Systems,2014,24(8): 1192–1216. (WOS: 000340876800010) 

[28] TAN Jin, HU Weihao, WANG Xiaoru and CHEN zhe. Effect of Tower Shadow and Wind Shear in a Wind Farm on AC Tie-Line Power Oscillation of Interconnected Power Systems[J]. Energies,2013, 6(12):6352-6372. (WOS: 000330290600014) 

[29] Xiaoyang Tong, Xiaoru Wang, Rui Wang, Fei Huang, Xueyuan Dong, Kenneth M. Hopkinson, Gongyi Song. The Study of a Regional Decentralized Peer-to-Peer Negotiation-Based Wide-area Backup Protection Multi-agent System[J]. IEEE Transactions on Smart Grid, 2013,4(2):1197-1206. (WOS: 000325487800058)

[30] Xu Pengfei, Wang Xiaoru. Ajjarapu Venkataramana. Continuation Power Flow with Adaptive Step-size Control via Convergence Monitor[J]. IET Generation, Transmission and Distribution,2012,6(7):673-679. (WOS: 000306087600010)

[31]  Class, L.A.O, Hopkinson, K.M, Xiaoru Wang, Andel, T.R, Thomas, R.W. A Robust Communication-Based Special Protection System[J]. IEEE Transactions on Power Delivery, 2010, 25(3):1314-1324 (WOS: 000278996500011)

[32] Xiaoyang Tong, Xiaoru Wang, Kenneth M. Hopkinson. The Modeling and Verification of Peer-to-Peer Negotiating Multi-Agent Colored Petri Nets for Wide-Area Backup Protection[J]. IEEE Transactions on Power Delivery, 2009, 24(1):61-72. (WOS: 000262260800008)

[33] Kenneth Hopkinson, Gregory Roberts, Xiaoru Wang, JamesThorp. Quality-of-Service Considerations in Utility Communication Networks[J]. IEEE Transactions on Power Delivery,2009, 24(3): 1465-1474. (WOS: 000267765100058)

[34] Hopkinson, K.; Xiaoru Wang; Giovanini, R.; Thorp, J.; Birman, K.; Coury, D. EPOCHS: a platform for agent-based electric power and communication simulation built from commercial off-the-shelf components[J]. IEEE Transactions on Power Systems, Volume 21, Issue 2, May 2006 Page(s):548-558. (WOS: 000237313000012)

[35] Wang, Xiaohong; Wu, Sitao; Wang, Xiaoru; Li, Qunzhan. SVMV – A Novel Algorithm for the Visualization of SVM Classification Results[J]. Advances in Neural Networks - ISNN 2006, Pt 1. 2006:968-973. (WOS: 000238112000142)

A2.发表在《中国电机工程学报》等学报上的论文（EI源）

[36] 孔睿，吕晓琴，王晓茹，常明远，葛茗瑞. 列车混运的车网系统低频振荡建模与分析[J]. 中国电机工程学报，2022. (EI:20232614289427)

[37] 车玉龙,吕晓琴,王晓茹.考虑相关性的牵引负荷功率对电网影响概率分析[J].中国电机工程学报,2022,42(09):3250-3261. (EI: 20222112132591)

[38] 廖小君,李龙源,童晓阳,王晓茹.基于电流向量l_2范数的变压器比率差动保护新判据[J].中国电机工程学报,2022,42(18):6693-6704. (EI: 20224112849993)

[39] 李龙源,付瑞清,吕晓琴,王晓茹,段虎昌.接入弱电网的同型机直驱风电场单机等值建模[J].电工技术学报,2023,38(03):712-725. (EI: 20232114141687)

[40] 仉怡超,闻达,王晓茹,林进钿.基于深度置信网络的电力系统扰动后频率曲线预测[J].中国电机工程学报,2019,39(17):5095-5104+5290. (EI:2019 3907483648)

[41] 胡益,王晓茹,滕予非,艾鹏,车玉龙.基于多层支持向量机的交直流电网频率稳定控制方法[J].中国电机工程学报. (EI: 20193507379040)

[42] 谢剑, 成业, 王晓茹. 基于NExT和PRCE方法的低频振荡分析[J]. 电工技术学报, 2018, 33(1): 121-130.（EI：20173104011237）

[43] 吕晓琴，王晓茹．高速铁路牵引供电系统的状态空间模型.中国电机工程学报，2017, 37(3):857-868.（EI：20171703609034）

[44] 谢剑，王晓茹，张鹏．基于PRCE方法的低频振荡模式识别[J] 中国电机工程学报. 2017 , 37 (11) :3129-3138（EI：20173104011237）

[45] 刘克天，王晓茹，薄其滨．基于广域量测的电力系统扰动后最低频率预测[J]. 中国电机工程学报，2014，34(13)：2188-2195．(EI：20142117743193)

[46] 魏星，王晓茹，王德林，张鹏. 计及发电机内电抗的链式电力系统机电扰动传播研究[J]. 中国电机工程学报，2014,34(10):1624-1630.（EI：20141917700222）

[47] 王利平，王晓茹．特高压输电线路计算功率差动保护[J]. 中国电机工程学报，2013.33(19)：174-182.（EI：20133416646854）

[48] 董雪源，王晓茹．用于电力系统信息综合传输的改进加权公平队列调度算法[J]． 中国电机工程学报，2012,36(22): 149-156+6.（EI:20123715431595）

[49] 叶圣永，王晓茹，周曙，刘志刚，钱清泉．基于马尔可夫链蒙特卡罗方法的电力系统暂态稳定概率评估[J]. 电工技术学报, 2012,27(6): 168-174. （EI:20123015280600）

[50] 周曙，王晓茹，钱清泉．故障诊断的时间因果贝叶斯网模型．铁道学报, 2011，33(11)：70-75.（EI:20114914584649）

[51] 王德林，王晓茹．有限长均匀链式电力系统中机电扰动传播分析[J]．中国电机工程学报，2011，31(28)：87-94.（EI:20114614524672）

[52] 叶圣永，王晓茹，刘志刚，钱清泉．基于受扰严重机组特征及机器学习方法的电力系统暂态稳定评估[J]. 中国电机工程学报，2011，31(1):46-51.（EI:20110713664722）

[53] 李明，王晓茹．基于最优窗Burg算法的电力系统间谐波谱估计[J]. 电工技术学报，2011，26(1):177-182.（EI:20111613926831）

[54] 王德林，王晓茹，梅生伟．不均匀连续体电力系统中的机电波传播[J]. 中国电机工程学报，2010，30(34)：78-85.（EI:20110113551536）

[55] 廖国栋，王晓茹．利用局部区域量测的电压稳定在线监测[J]. 中国电机工程学报，2010，30(4)：56-62.（EI:20101312807989） 

[56] 叶圣永，王晓茹，刘志刚，钱清泉．基于支持向量机的暂态稳定评估双阶段特征选择[J]. 中国电机工程学报，2010，30(31)：28-34.（EI:20104913466509）

[57] 李明，王晓茹．一种用于电力系统间谐波谱估计的自回归模型算法[J]. 中国电机工程学报，2010，30(1)：72-76.（EI:20100412666981）

[58] 廖国栋,王晓茹.基于广域量测的电压稳定在线监测方法[J]. 中国电机工程学报，2009，29（4）：8-13.（EI:090811917741）

[59] 童晓阳,王晓茹. 对等协商多Agent系统的设计模型[J]. 西南交通大学学报，2009，44（2）：201-207.（EI：092112092720）

[60] 廖国栋,王晓茹. 电网电压稳定性薄弱节点在线辨识方法[J]. 西南交通大学学报，2009，44（2）：244-248.（EI：092112092727）

[61] 叶圣永, 王晓茹, 刘志刚, 钱清泉．基于随机森林算法的电力系统暂态稳定性评估[J]. 西南交通大学学报，2008，43（5）：573-577.（EI：20084711720834）

[62] 汤俊，王晓茹. 反应重负荷下高阻故障的稳态量线路差动保护判据[J]. 中国电机工程学报，2008，28（4）：72-77.（EI:081111147175）

[63] 童晓阳，王晓茹，汤俊. 电网广域后备保护代理的结构和工作机制研究[J]. 中国电机工程学报，2008，28（13）：91-98.（EI:082311304525）

[64] 童晓阳，王晓茹，Kenneth Hopkinson，汤俊. 广域后备保护多代理系统的仿真建模与实现[J]. 中国电机工程学报，2008，28（19）：111-117.（EI:083011402272）

[65] 廖国栋,王晓茹.电力系统戴维南等值参数辨识的不确定模型[J]. 中国电机工程学报,2008，28(28)：74-79.（EI:084411671752）

[66] 王德林,王晓茹.电力系统中机电扰动的传播特性分析[J]. 中国电机工程学报.2007，07，27（19）：18-24.（EI:073210754344）

[67] 王德林,王晓茹.电力系统连续体模型中机电波传播特性研究[J]. 中国电机工程学报.2007，06，27（16）：43-48.（EI:072710692010）

[68] 王德林,王晓茹,James S.Thorp.电力系统的连续体系机电波模型[J]. 中国电机工程学报.2006，09，26（17）：30-37.（EI:064510226156）

[69] 王晓红, 王晓茹, 李群湛.二分类数据的分类结果可视化算法[J]. 西南交通大学学报，2006,06,41(3):329-334.（EI：063310068158）

[70] 童晓阳,王晓茹,韩旭东,高仕斌.基于UML的MAS环境下Agent的一般性分层框架[J]. 西南交通大学学报，2006,04,41(2):143-149.（EI:06259948904）

[71] 何正友; 王晓茹; 钱清泉.利用小波分析实现EHV输电线路单端量暂态保护的研究[J]. 中国电机工程学报.2001,10,21(10):10-14 （EI:02126893890）

[72] 何正友,钱清泉,王晓茹.基于优化小波基的电力故障暂态数据压缩研究[J]. 西南交通大学学报(自然科学版)，2000,10,35(5):527-530

[73] 王晓茹,钱清泉.电力系统故障信号的短时傅里叶分析及其应用[J]. 西南交通大学学报(自然科学版)，1999,08,34(3):431-435

A3.发表在《电力系统自动化》、《电网技术》等国内其他EI源期刊论文

[74] 伍文城,王晓茹,宋新立.多直流协调控制系统的状态空间模型辨识[J].电力系统自动化.2021.已录用.

[75] 伍文城,王晓茹,宋新立.面向阻尼控制的交直流混合系统线性状态空间模型辨识[J].电力系统自动化,2022,46(09):91-98. (EI: 20221912072924)

[76] 车玉龙,吕晓琴,王晓茹,韩润.含非正态分布概率潮流计算的改进型两点估计法[J].电力自动化设备,2019,39(12):128-133. (EI:20195207901673)

[77] 罗启珩,王晓茹,刘金强,闻达.基于调速系统等值模型的电力系统发生扰动后最低频率预测[J].电力自动化设备,2019,39(10):163-167. (EI: 20194807752212) 

[78] 胡益, 滕予非, 王晓茹. 基于广域量测的多直流馈入/馈出电网稳态频率控制策略研究[J]. 电网技术. 2018,42(01):25-33. (EI：20182505342102）)

[79] 胡益, 王晓茹, 艾鹏, 滕予非. 基于广域量测的交直流混联系统发生扰动后稳态频率预测算法[J]. 电力自动化设备, 2018, 38(11): 35-42. (EI: 20190806518478)

[80] 胡益,王晓茹,滕予非,车玉龙.特高压直流闭锁后的交直流混联受端电网最优切负荷方案[J].电力系统自动化. 2018, 42(01): 98-106. (EI: 20190806518460)

[81] 胡益,王晓茹.一种计及紧急功率支援的直流互联异步电网动态频率分析方法[J].电网技术, 2018, 42(09): 2859-2870. (EI: 20184806148462)

[82] 胡益,王晓茹,滕予非,韩润. 多端电压源型直流互联系统频率稳定性控制策略研究,电力系统自动化. 2017, 41 (10) :51-57. (EI:20172703864458)

[83] 范成围,陈刚,王晓茹,伍文城.大规模电力系统静态电压安全评估[J].电网技术.2017, 41(7):2263-2271. (EI: 20173904199922)

[84] 艾鹏,滕予非,王晓茹,胡斌俞,林进钿. 计及紧急直流功率支援的扰动后稳态频率预测算法.电力系统自动化. 2017, 41 (13) :92-99. (EI:20173204021736)

[85] Feifei Bai, Yong Liu,Yilu Liu, Kai Sun, Navin Bhatt, Alberto Del Rosso, Evangelos Farantatos, Xiaoru Wang, “A Measurement-based Approach for Power System Instability Early Warning,” Protection and Control of Modern Power Systems, 2016, Vol. 1, No. 1.(电力系统保护与控制英文版)

[86] 童晓阳,王晓茹. 乌克兰停电事件引起的网络攻击与电网信息安全防范思考[J]. 电力系统自动化,2016. (EI:20152400936045)

[87] 胡柏玮,丁理杰,刘新宇,孙景涛,王晓茹,李旻. 基于相量量测的中小型水电集群动态等值方法研究[J]. 电力系统保护与控制,2016.

[88] 薄其滨,王晓茹,刘克天.基于v-SVR的电力系统扰动后最低频率预测[J]. 电力自动化设备,2015.(EI:20154501514418)

[89] 王天钰,魏星,徐家俊,王晓茹.考虑输入饱和的直驱式永磁同步风力发电系统最大功率跟踪控制[J]. 电力自动化设备,2015. (EI源:20154501514423)

[90] 王祥超,张鹏,甄威,王晓茹. 基于自然激励技术和TLS-ESPRIT方法的低频振荡模式辨识[J]. 电力系统自动化,2015,39(10):75-80. (EI:20152400936045)

[91] 胡益,王晓茹,李鹏,曹兴. 静止同步串联补偿器(SSSC)的非线性鲁棒H∞制策略研究[J]. 电力系统保护与控制,2015.

[92] 艾鹏,张雪霞,王晓茹. 基于补偿算法改进的隐式Zbus高斯潮流计算方法[J]. 电力系统保护与控制,2015.

[93] 张星，李龙源，胡晓波，王晓茹，周孝信.基于风电机组输出时间序列数据分群的风电场动态等值[J].电网技术，2015, 39(10): 2787-2793. (EI: 20154401475280)

[94] 朱玲,王晓茹,卢岑岑,郑伟杰.基于BPA的大电网紧急直流功率功率支援策略研究[J]. 电力系统保护与控制.2014,41(23):139-144

[95] 徐家俊,王晓茹,王天钰,李宏强. 基于ADPSS的电力系统和牵引供电系统机电-电磁暂态混合仿真[J]. 电网技术,2014,38(7):1923-1927. (EI:20143017975621)

[96] 王利平，王伟，陈军，余锐，王晓茹．串联补偿输电线路稳态量电流差动保护改进算法．电力系统自动化，2014，38(8)：98-103. (EI：20141200000707)

[97] 刘凯,刘克天,王晓茹,等.基于FNET实测数据分析川渝电网频率动态特性[J]. 电力系统保护与控制.2014,42(3):134-140. 

[98] 谭谨,王晓茹,李龙源.含大规模风电的电力系统小扰动稳定研究综述[J]. 电力系统保护与控制. 2014,42(3):15-23.

[99] 刘克天,王晓茹.电厂锅炉及辅机对电力系统动态频率影响的仿真研究[J]. 电力系统保护与控制. 2014,42(13):53-58.

[100] 刘月贤,王天钰,杨亚宇,王晓茹.电动汽车充放电系统建模与仿真[J]. 电力系统保护与控制. 2014,42(13):70-76.

[101] 朱玲,胡晓波,王晓茹. 模块化多电平变流器HVDC系统的模型预测控制[J]. 电力系统保护与控制,2014,42(16):1-8.

[102] 王利平,王晓茹,王伟,陈军,余锐.输电线路故障测距实用算法研究[J]. 电力系统保护与控制.2014,42(16):52-58.

[103] 李宏强,王晓茹,徐家俊.车网耦合的牵引供电系统谐波仿真分析[J]. 电力系统保护与控制.2014, 42(20):116-122.

[104] 谭谨,王晓茹,陈哲.并网永磁直驱式风电系统的模态分析[J]. 电力系统保护与控制. 2013.41(17):49-55.

[105] 王睿,王晓茹,黄飞,周曙.基于相关矩阵的电网广域后备保护算法[J]. 电力系统自动化,2013,37(4):69-74. (EI:20131216131902)

[106] 王天钰,李龙源,和鹏,王晓茹.直流机电暂态与电磁暂态模型在低频振荡分析中的比较[J]. 电力系统保护与控制,2013,41(19):17-23.

[107] 刘克天,王晓茹.基于广域量测数据的电力系统动态频率分析方法[J].电网技术. 2013.37(8):2201-2206. (EI:20133516679034)

[108] 王晓茹,魏星,张鹏.基于超导磁储能的电力系统机电扰动传播控制[J]. 电力系统自动化,2013.37(1): 155-160. (EI:20131016087798)

[109] 黄飞,王晓茹,董雪源,王睿.基于EPOCHS平台的智能配电网通信网络仿真研究[J]. 电力系统自动化.2013,37(11):81-86. (EI:20132916509241)

[110] 董雪源,王晓茹,童晓阳,黄飞,王睿.流控传输协议在广域后备保护信息传输中的应用[J]. 电力系统自动化,2012,36(22):89-94. (EI:20125215843332)

[111] 卢岑岑,王晓茹.直流有功功率调制对四川电网暂态稳定性的影响[J].电网技术,2012,36(11):140-146. (EI:20125015795634)

[112] 和鹏,白菲菲,张鹏,王晓茹.电力系统次同步振荡轴系模型研究[J]. 电力系统保护与控制, 2012,40(4): 107-112.(EI:20121014835092)

[113] 王武双,王晓茹,黄飞,吴丹. 电力系统仿真软件PSASP接口研究与应用[J].电网技术, 2011,35(7):113-117. (EI:20113214216404)

[114] 白菲菲,和鹏,张鹏,王晓茹.抑制次同步谐振的串补方案仿真研究[J]. 电力系统保护与控制,2011,39(19):121-125,149. (EI:20114414474879)

[115] 叶圣永, 王晓茹, 刘志刚, 钱清泉.基于支持向量机增量学习的电力系统暂态稳定评估[J]. 电力系统自动化, 2011,35(11):15-19. (EI:20112714116048)

[116] 赵茜茜,王晓茹.电力系统扰动后稳态频率预测快速算法[J]. 电力系统保护与控制,2011,39(1):72-77. (EI:20111113746470)

[117] 叶圣永,王晓茹,刘志刚,钱清泉.基于Stacking元学习策略的电力系统暂态稳定评估[J]. 电力系统保护与控制,2011,39(6):12-16,23. (EI:20111913972047)

[118] 宋功益,王晓茹,周曙.基于贝叶斯网的电网多区域复杂故障诊断研究[J]. 电力系统保护与控制,2011,39(7):20-25,31. (EI:20111913972076)

[119] 卢岑岑,王晓茹.BPA与PSSE直流输电模型仿真比较研究[J].电网技术,2010,34(增刊2):98-102.

[120] 王君,王晓茹,谢大鹏,陈义宣. 孤岛系统的低频减载方案研究[J]. 电力系统保护与控制,2010,38(3):29-33,52. (EI:20101312808222)

[121] 桑丙玉,王晓茹. 特高压长线路电流差动保护自适应电容电流补偿方法[J]. 电力系统保护与控制,2010,38(8):1-5. (EI:20102212974433)

[122] 乾维江,王晓茹. 一种基于形态学梯度的电流互感器饱和检测改进算法[J]. 电力系统保护与控制,2010,38(8):15-18,70. (EI:20102212974436)

[123] 涂福荣,王晓茹.电力系统无功优化模糊建模研究[J].电力系统保护与控制,2010,38(13):46-49. (EI:20103113111016)

[124] 周曙,王晓茹,钱清泉. 电力系统广域后备保护中的贝叶斯网故障诊断方法[J]. 电力系统自动化,2010,34(4): 44-48. (EI:20104113293091)

[125] 董雪源,王晓茹.IntelliGrid体系结构中流控传输协议[J]. 电力系统自动化,2010, 34(5): 61-65. (EI:20101712896503)

[126] 童晓阳,廖晨淞,周立龙,李映川,章力,王晓茹,许克崃.基于IEC 61850-9-2的变电站通信网络仿真[J]. 电力系统自动化,2010,34(2):69-74. (EI:20101112776776)

[127] 李明,王晓茹. 采用时频原子方法的电压闪变检测[J]. 电网技术,2010,34(7):94-97. (EI:20100412666981)

[128] 周曙, 王晓茹, 钱清泉. 基于贝叶斯网的分布式电网故障诊断方法[J]. 电网技术,2010,34(9):76-81. (EI:20104113293091)

[129] 黄忠胜,王晓茹,童晓阳. 基于EPOCHS的数字化变电站通信网络仿真分析[J]. 电力系统自动化,2009,33(21):77-80. (EI:20095112567057)

[130] 李明; 张葛祥; 王晓茹; 时频原子方法在间谐波分析中的应用[J]. 电网技术.2009,33(17):81-85.

[131] 叶圣永, 王晓茹, 刘志刚, 钱清泉.电力系统暂态稳定概率评估方法[J]. 电网技术.2009,33(6):19-23,28.

[132] 张薇,王晓茹,廖国栋.基于广域量测数据的电力系统自动切负荷紧急控制算法[J]. 电网技术.2009,33(4):69-73.

[133] 李亦宁; 王晓茹; 向丽萍; 王建; 谢桦; 肖丹雄. 利用自组织映射SOM实现电力系统暂态稳定评估结果可视化[J]. 电力系统保护与控制,2009,37(5):41-46. (EI:20092812177692)

[134] 马丹丹; 王晓茹; 基于小波模极大值的单端行波故障测距[J]. 电力系统保护与控制,2009,37(3):55-59. (EI:20092712172453)

[135] 谢大鹏; 王晓茹; 张薇; 利用PSS/E实现电力系统低频减载控制仿真[J]. 电力系统保护与控制,2009,37(1):71-75,82. (EI:20092712163796)

[136] 陈义宣,王晓茹,廖国栋,王武双. PSS/E励磁系统的自定义建模[J]. 电网技术, 2009, 33(18): 78-83.

[137] 丁力,王晓茹,王林. IEC 61850标准中MMS映射分析及其编码/解码模块的设计[J]. 继电器,2008,36(12):69-73

[138] 叶圣永, 王晓茹, 刘志刚, 钱清泉.电力系统暂态稳定评估组合模型的比较[J]. 电网技术.2008,32(23):19-23.

[139] 向丽萍,王晓茹. 电力系统暂态稳定评估的特征选取[J]. 继电器,2008,36(6):26-31

[140] 童晓阳,王晓茹,丁力. 采用IEC61850构造变电站广域保护代理的信息模型[J]. 电力系统自动化. 2008,32(5):63-67,107. (EI:081511196314)

[141] 汤俊,王晓茹,桑丙玉. 稳态量分相电流差动保护判据制动特性的改进[J]. 电力系统自动化,2008,32(11):44-48.(EI:082811370982)

[142] 童晓阳,王晓茹. 基于Web Service的电力多Agent广域协作平台初探[J]. 电力系统自动化,2008,32(8):43-48. (EI:082111273219)

[143] 丁力,王晓茹,童晓阳.基于EPOCHS平台的IEC 61850采样值传输仿真[J]. 电力系统自动化,2008,32(20):67-72. (EI:084811741226)

[144] 童晓阳,王晓茹. 广域后备保护系统若干问题的探讨[J]. 继电器. 2007,35(增刊):45-49.

[145] 虞芹婕, 王晓茹, 游家训, 兰培强.基于相量量测的等式约束二阶段状态估计模型[J]. 电网技术.2007,05,31(10):84-88.

[146] 丁代勇,王利平,王晓茹.多播技术在低压变电站通信中的应用[J]. 电网技术.2007,09,31(17):26-29.

[147] 童晓阳, 王晓茹.基于面向Agent Petri网的广域后备保护建模与分析[J]. 电力系统自动化.2007,09,31(18):43-49. (EI:074310887910)

[148] 童晓阳,王晓茹,谭永东.一种对等协商实时Agent的控制结构及其应用[J]. 电力系统自动化.2007,12,31(22):56-60. (EI:075210995362)

[149] 丁代勇,刘频,王晓茹.基于IEC61850的MMS客户端软件的设计与实现[J].继电器.2007,04,35(8):45-49.

[150] 向丽萍, 王晓红, 王建, 项杨, 谢桦, 王晓茹.基于支持向量机的暂态稳定分类中的特征选择[J]. 继电器.2007,05,35(9):17-21.

[151] 廖国栋,王晓茹,王利平,钟山,童晓阳.嵌入式以太网在变电站自动化系统中的实现[J]. 电力系统自动化.2006,03,30(6):79-83. (EI:06229912141)

[152] 钟山,王晓茹,胡绍谦.一种适用于同步相量测量的新算法[J]. 继电器.2006,01,34(1):34-38.

[153] 黄晓青,王晓茹,王德林,张丽.非正弦非平衡电力系统视在功率研究[J]. 继电器.2006,06,34(12):30-34.

[154] 廖国栋,钟山,王晓茹,童晓阳.ARP在低压变电站自动化系统中的实现及应用[J]. 电力系统自动化.2006,02,30(3):76-79. (EI:06159819814)

[155] 钟山,付家伟,王晓茹.高性能同步相量测量装置守时钟研制[J]. 电力系统自动化.2006,01,30(1):68-72. (EI:06129772929)

[156] 童晓阳, 王晓茹, 汤俊.基于IEC61850的变电站智能电子设备的统一建模语言设计及改进[J]. 电网技术.2006,02,30(3):85-88.

[157] 童晓阳,李岗,陈德明,王晓茹.采用IEC61850的变电站间隔层IED软件设计方案[J]. 电力系统自动化.2006,07,30(14):54-57. (EI:063810123317)

[158] 王晓茹; K.M.Hopkinson; J.S.Thorp; R.Giovanini; K.Birman; D.Coury.利用Agent实现新的电网后备保护[J]. 电力系统自动化.2005,11,29(21):57-62. (EI:05509546159)

[159] 童晓阳; 廖国栋; 王晓茹.发布/订阅通信模型改进及在变电站自动化中的应用[J]. 电力系统自动化.2005,07,29(14):64-68. (EI:05359331058)

[160] 刘志刚; 王晓茹; 钱清泉.小波网络的研究进展与应用[J]. 电力系统自动化.2003,03,27(6): 73-79.

[161] 刘志刚; 王晓茹; 何正友; 钱清泉. 小波变换、神经网络和小波网络的函数逼近能力分析与比较[J]. 电力系统自动化.2002,10,26(20):39-44. (EI:2003057346738)

[162] 何正友; 王晓茹; 钱清泉.一类递归小波的构造及其应用[J]. 电力系统自动化.2000,05,24(10):12-13 (EI:2004057941850)

[163] 王晓茹; 钱清泉; 伍思涛.基于神经网络的自适应距离保护研究[J]. 电力系统自动化.1998,12,22(12):27-30.

[164] 王晓茹; 伍思涛; 钱清泉.一种基于神经网络的高压输电线故障分类器[J]. 电力系统自动化.1998,11,22(22):28-31.

[165] 陈维荣; 钱清泉; 王晓茹.神经网络在继电保护及故障诊断中的应用[J]. 电力系统自动化.1997,05,21(5):5-9.

[166] 王晓茹; 米麟书.相灵敏接线方向阻抗元件的计算机仿真分析[J]. 继电器.1989:10-17.

A4.国际会议论文

[167] Q. Wang, X. Wang and Y. Zhu. A Robust Steady-State Frequency Prediction Method Considering Measurement Uncertainty. 2023 International Conference on Power System Technology (PowerCon), Jinan, China, 2023:1-7.

[168] Y. Long, X. Wang and R. Fu. Study on Transient Stability of Grid-Following VSC with Virtual Inertial Control. 2023 International Conference on Power System Technology (PowerCon), Jinan, China, 2023: 1-5.

[169] X. Sun, L. Chen and X. Wang, Spatial-Temporal Dynamic Frequency Prediction Based on Integrating Model-Driven and Data-Driven[C]. 2023 IEEE Power & Energy Society General Meeting (PESGM) Orlando, USA, 2023:1-5.

[170] L. Chen, Q. Chen and X. Wang. A Spatial-temporal Frequency Nadir Prediction Method Based on ConvLSTM with Attention[C]. 2022 International Conference on Electrical, Computer and Energy Technologies (ICECET), Prague, Czech Republic, July 20-22, 2022, pp. 1-6.

[171] Huchang Duan, Longyuan Li, Xiaoqin Lv, Xiaoru Wang. Investigation on the Mechanism and Influencing Factors of Subsynchronous Torsional Oscillations Induced by PMSG Wind Farms [C]. 2022 IEEE 17th Conference on Industrial Electronics and Applications (ICIEA), Chengdu, China, 2022.

[172] Wenwen Zhu , Xiaoru Wang , Mingyuan Chang , Xiaoqin Lyu. Harmonic State Space Modeling and Stability Analysis of Traction Power System Connected to the Three-phase Grid[C]. 2022 IEEE 17th Conference on Industrial Electronics and Applications (ICIEA), Chengdu, China, 2022.

[173] Xiangyu Dong, Xiaoru Wang and Ruiqing Fu. Natural Inertia Response of Static Synchronous Compensator by PLL-Feedforward Control [C]. 2022 4th International Conference on Smart Power & Internet Energy Systems (SPIES), Beijing, China, October 27-30, 2022.

[174] Mingyuan Chang, Xiaoru Wang, Xiaoqin Lv, Xiangyu Meng. SISO Impedance Modeling of Vehicle-Grid System for Low-Frequency Oscillation Analysis[C]. 2022 IEEE Power & Energy Society General Meeting, Denver, Colorado, July 17-21,2022, pp. 1-5. (EI: 20221311847501)

[175] Jintian Lin, Longyu Chen, Yichao Zhang, Qingyue Chen, Xiaoru Wang. A Predictive Method for the Frequency Nadir Based on Convolutional Neural Network[C]. 2021 IEEE 2nd China International Youth Conference on Electrical Engineering (CIYCEE), Chengdu, December15-17, 2021, pp. 1-8.(EI: 20220811702512)

[176] Mengqi Li, Xiaoru Wang. Optimization Model of Reserve Allocation in High Penetration Renewable Energy Power System[C]. 2021 IEEE PES Innovative Smart Grid Technology - Asia (ISGT Asia). Brisbane, December. 5-8,2021. (EI: 20221311847501)

[177] CHEN Qingyue，WANG Xiaoru，LIN Jintian，CHEN Longyu．Convolutional LSTM-based frequency nadir prediction［C］.2021 International Conference on Energy, Electrical and Power Engineering (CEEPE), Chongqing, April 23-25,2021, pp. 667-672. (EI: 20213110708935)

[178] Yuzhao Zhu, Yu Zhang, Xiaoru Wang. Emergency Control for Fast Frequency Response of System Connected to Multiple VSC-HVDC Based on Wide-Area Measurement System [C]. 2021 IEEE Power Energy Society General Meeting, Washington, July 26-29,2021, pp. 1-5.(EI: 20220611604664)

[179] Fu, Ruiqing, Longyuan Li, Xiaoru Wang, Xiaoqin Lv. Frequency Couplings and Response Characteristics of Grid-Tied VSC System[C].2021 IEEE Power Energy Society General Meeting , Washington, July 26-29,2021, pp. 1-5.(EI: 20220611604653)

[180] R. Kong, X. Lv and X. Wang. Low-Frequency Oscillation Analysis of Train-Network System with Different Types of Trains Connected[C].2021 IEEE 16th Conference on Industrial Electronics and Applications (ICIEA),  Chengdu, August 1-4,2021, pp. 1530-1535. (EI: 20213910940836)

[181] Xiaojun Liao, Xiaoru Wang, Xiaoyang Tong, Xianzheng Feng , Li Zhang. A Power Grid Fault Center Identification Method Based on Feature Vector Centrality[C]. 2021 IEEE 16th Conference on Industrial Electronics and Applications (ICIEA), Chengdu, August1-4, 2021, pp. 457-463. (EI: 20213910940890)

[182] Chao Pang, Senlin Yu, Xiaoru Wang. DC Line Single-ended Protection Scheme for Flexible HVDC grid Based on Traveling Wave[C]. 2021 IEEE 4th International Electrical and Energy Conference (CIEEC2021), Wuhan, May 28-30, 2021, pp. 1-6. (EI: 20213610867819) 

[183] Fu R, Li L, Wang X. Crirical SCR for the stability of VSC connected to weak grid [C]. 2020 IEEE Power & Energy Society General Meeting (PESGM), 2020. (EI: 20210209766535)

[184] Li L, Zhang H, Fu R, Wang X. Dynamic Equivalence Method of DDPMSG Wind Farm for Sub-Synchronous Oscillation Analysis [C]. 2020 IEEE Power & Energy Society General Meeting (PESGM), 2020. (EI: 20210209766539)

[185] Zhang Y, Wang X, Ding L. LSTM-Based Dynamic Frequency Prediction [C]. 2020 IEEE Power & Energy Society General Meeting (PESGM), 2020. (EI: 20210209766379)

[186] Hongyu Zhu, Yi Hu, Xiaoru Wang. Frequency Stability Control Method of AC/DC Power System Based on Convolutional Neural Network[C]. 2020 IEEE Sustainable Power and Energy Conference (iSPEC), Chengdu, 23-25 November 2020, pp. 2609-2615. (EI: 20211010047851)

[187] Zun Ma, Xiaoru Wang, Song Wu, Xiufeng Zhang. Coordinated Control Strategy of Offshore Wind Farm and MMC-HVDC to Improve the Inertia Level of Power System[C]// IEEE APAP. IEEE, 2019. (EI: 20204809526882)

[188] Longyuan Li, Yufei Teng, Xiaoru Wang and Qingyue Chen. Dynamic Equivalence Method of Wind Farm Considering the Wind Power Forecast Uncertainty[C]. IEEE PES ISGT ASIA 2019. (EI: 20194607698223)

[189] Yichao Zhang, Xiaoru Wang*, Hongyu Zhu. Prediction for the Maximum Frequency Deviation of Post-disturbance Based on the Deep Belief Network [C]. 2019 IEEE PES Innovative Smart Grid Technologies Asia (ISGT), Chengdu, 2019, pp.683-688. (EI：20194607698256）

[190] Yulong Che, X. Lv, X. Wang, et al. Probabilistic Load Flow Using An Improved Point Estimate Method Considering Wind Generation[C]. 2019 IEEE Innovative Smart Grid technologies-Asia (ISGT ASIA 2019), 2019. (EI: 20194607697951)

[191] Rui Zhong, Yufei Teng, Xiaoru Wang, Yuzhao Zhu, Hang Zhang. Probabilistic Optimal Power Flow Calculation of AC/DC Hybrid Distribution Network with Photovoltaic Power and Electric Vehicles[C]. The 11th International Conference on Power System Technology. Guangzhou, November, 2018, pp. 20-27. (EI: 20190806533463)

[192] Jintian Lin, Yichao Zhang, Jinqiang Liu, Xiaoru Wang. A physical- data combined power grid dynamic frequency prediction methodology based on adaptive neuro-fuzzy inference system[C]. The 11th International Conference on Power System Technology. Guangzhou, November, 2018. (EI: 20190806533722) 

[193] Jinqiang Liu, Xiaoru Wang, Yufei Teng, and Jintian Lin. A Hybrid Equivalent Model for Prediction of Power System Frequency Response[C]. 2018 IEEE PES General Meeting, Portland, OR, August 5-10, 2018. (EI: 20190506458654) 

[194] Chen Haoyue, Che Yulong, Fu Ruiqing, Wang Xiaoru, Lv Xiaoqin, Zhu Hongyu. Study on Regenerative Braking Energy Utilization and Power Quality Control in Electrified Railways. Power Electronics and Application Conference and Exposition (PEAC), 4-7 Nov, 2018, Shenzhen. (EI: 20190606474297) 

[195] Yulong Che, Xiaoqin Lv, Xiaoru Wang, Probability Model of Traction Load Using Histogram Density Estimator Based on Optimal Binwidth[C]. 2018 International Conference on Robotics and Control Engineering. Lanzhou, Aug. 2018. (EI:20184706119721)

[196] Yulong Che, Xiaoru Wang, Xiaoqin Lv. Impact Analysis of Traction loads on Power Grid Based on Probabilistic Three-Phases Load Flow[C]. The 14th IET International Conference on AC and DC Power Transmission. Chengdu, June 2018. (EI: 20191706838484)

[197] Yi Hu, Xiaoru Wang, Dalin Chen, Yulong Che. A Frequency Stability Control Method Considering Limited Emergency DC Power Support[C]. The 14th IET International Conference on AC and DC Power Transmission. Chengdu, June 2018. (EI源,已录用) 

[198] Qiaoyue Shao, Longyuan Li, Yufei Teng, Xiaoru Wang. A Dynamic Equivalent Method Based on Composite Load for Hydropower Generator Groups with Motor Load[C]// International Conference on Smart Grid and Clean Energy Technologies (ICSGCE), 2018. (EI:20190406415299)

[199] Chen Dalin; Hu Yi; Wang Xiaoru; Teng Yufei; Shen Feng. Control strategy of VSC-HVDC inverter supplying power to the isolated grid with induction motor. 2017 International Electrical and Energy Conference, 25-27 Oct, 2017 Beijing, China. (EI:20182905577724)

[200] Shen Feng; Hu Yi; Wang Xiaoru; Chen Dalin; Teng Yufei. A DC Fault Protection Scheme for HB-SM based MMC-HVDC.2017 International Electrical and Energy Conference, 25-27 Oct,2017 Beijing, China. (EI:20182905577735) 

[201] Y. Lu, J. Liu and X. Wang, "Very short-term wind speed prediction-based inertial control of a DFIG wind farm," 2017 36th Chinese Control Conference (CCC), Dalian, 2017, pp. 9308-9314. (EI:20174404319522)

[202] Xiaoqin Lv, Xiaoru Wang and Jiwei Zheng. Transient Overvoltage Analysis of Traction Power-Supply System with Neutral Sections in China High-Speed Railway Using a State-Space Model.2017 International conference on electrical and information technologies for rail transportation, 2017,10. (EI:20181605019165)

[203] Feifei Bai, Yong Liu, Yilu Liu, Xiaoru Wang. A simulation-based linearity study of large-scale power systems[C]// IEEE Power and Energy Society General Meeting (PESGM), Boston, MA, USA, July 17-21,2016. IEEE: 1-5. (EI: 20165003117093)

[204] Yi Hu, Xiaoru Wang, Feng Shen, Dalin Chen. Control strategy based on sliding mode variable-structure control of VSC-MTDC transmission system[C]. Power and Energy Engineering Conference (APPEEC), 2016 IEEE PES Asia-Pacific. IEEE, Xian, China, 25-28 Oct. 2016: 586-593. (EI: 20170403278052)

[205] Jian Xie, Xiaoru Wang. Estimation of electromechanical modes under ambient condition through random decrement technique and PRCE algorithm[C]. Power and Energy Engineering Conference (APPEEC), 2016 IEEE PES Asia-Pacific. IEEE, Xian, China, 25-28 Oct. 2016: 509-514. (EI: 20170403277936)

[206] Shengyong Ye, Yun Lu, Quan Tang, Xiaoru Wang, Han Feng. A new completing method of wind power data based on back propagation neural network[C]. Advances in Power and Energy Engineering: Proceedings of the 8th Asia-Pacific Power and Energy Engineering Conference, Suzhou, China, April 15-17, 2016. CRC Press, 2016: 283-288. (EI:20162402502100)

[207] Guodongliao， Qiaoyue Shao， Mengjiao Li， Shuai xiao. Measurement-Based Dynamic Equivalent Modeling for Small and Medium Hydropower Generator Group. IEEE. 2016 International Conference on Smart Grid and Clean Energy Technologies. P.348（EI:20171603571197）

[208] Bai FF, Liu HS, Zhu L, Liu YL, Sun K, Wang XR, et. A measurement-based control input-output signal selection approach to damp inter-area oscillations, 2015 IEEE APPEEC, Brisbance convention exhibition ctr, Brisbance, AUSTRALIA. (WOS: 00380532100010, EI: 20161902366849)

[209] Tianyu Wang, Longyuan Li, Xiaoru Wang, An Electromechanical Transient Model of Direct-Driven Permanent Magnet Synchronous Generator Based Wind Power System, 2014 International Conference on Power System Technology, October 20-22, 2014, Chengdu, China. (EI:20151200671704)

[210] Tianyu Wang, Longyuan Li, Jiajun Xu, Jin an, Xiaoru Wang, Adaptive Control for the Maximum Power Point Tracking of Wind Energy Conversion System Considering Torque Loss, The 33rd Chinese Control Conference, July, Nanjing, China, 2014. (EI:20144300119978)

[211] Longyuan Li, Tianyu Wang, Xiaoru Wang, Dynamic Equivalent Modeling of Wind Farm with D-DPMSG Wind Turbine Generators, 2014 International Conference on Power System Technology, October 20-22, 2014, Chengdu, China. (EI:20151200671801)

[212] Xinyu Liu, Qibin Bo, Xiaoru Wang. Feature Extraction of WAMS Transient Signals for Grasping System Response. 2014 International Conference on Power System Technology, October 20-22, 2014, Chengdu, China. (EI: 20151200671469)

[213] Qibin Bo, Xiaoru Wang, Ketian Liu. Minimum frequency prediction of power system after disturbance based on the v-support vector regression. 2014 International Conference on Power System Technology, October 20-22, 2014, Chengdu, China. (EI:20151200671549)

[214] Xiangchao Wang, Fan Tang, Xiaoru Wang, Peng Zhang. Estimation of electromechanical modes under ambient condition via random decrement technique and TLS-ESPRIT algorithm ,2014, Chengdu,China. (EI:20151200671604)

[215] Feifei Bai, Yilu Liu, Kai Sun, Navin Bhatt, Alberto Del Rosso, Evangelos Farantatos, Xiaoru Wang.“Methods to Establish Input-Output Relationship for System Identification-Based Models,” IEEE PES General Meeting, Washington, US, July, 2014. (EI: 20152500948101)

[216] Feifei Bai, Yilu Liu, Kai Sun, Navin Bhatt, Alberto Del Rosso, Evangelos Farantatos, Xiaoru Wang. “Input Signal Selection for Measurement-Based Power System ARX Dynamic Model Response Estimation,” IEEE PES T&D Conference, Chicago, IL, US, April, 2014. (EI: 20144500163061)

[217] Jin Tan, Xiaoru Wang, Tianyu Wang, Yitian Zhang. Alleviation of Oscillations Power of Wind Farm Using Flywheel Energy Storage[C]. IEEE Power and Energy Society General Meeting, July 27-31,2014, Washington DC, USA. (EI:20152500948245)

[218] Feifei Bai, Navin Bhatt, D. R. Alberto; Evangelos Farantatos, Yilu Liu, Kai Sun, Xiaoru Wang. Input signals selection for measurement-based power system ARX dynamic model response estimation[C]. 2014 IEEE/PES Transmission and Distribution Conference and Exposition, April 14-17, 2014, Chicago, IL, United States. (EI:20141217474491)

[219] Feifei Bai, Yong Liu, Yilu Liu, Kai Sun, Xiaoru Wang ,Navin Bhatt, Alberto Del Rosso, Evangelos Farantatos, “A Measurement-Based Method to Predict Potential Power System Instability”, CURENT Annual Meeting, Knoxville, US, 2014.

[220] Wu Wen-cheng, Wang Xiao-ru, Yang Yu-de, Zheng Wu. The Power Flow Optimization Methods and Practice for AC/DC Paralleled Transmission Channels in an Ultra-Large-Scale Grid[C]. 2014 International Conference on Power System Technology, October 20-22, 2014, Chengdu, China. (EI:20151200671559)

[221] Ling ZHU，XiaoRu WANG，CenCen LU，Weijie ZHANG. Comparative study of different emergence DC power support strategies on PSD-BPA[C]. The International Conference on Electrical Engineering, July 14-17, 2013 Xiamen, China.

[222] J.C.Wang, X.R.Wang. A Control Strategy for Leveling Active Power Fluction of Wind Farm with Flywheel Energy Storage System Based on Improved Wind Power Prediction Algorithm[C]. Asia-Pacific Power and Energy Engineering Conference, July 12-14, 2013, Beijing, China.

[223] Delin Wang, Xiaoru Wang. Electromechanical Disturbance Propagation and Oscillation in Power Systems[C]. Power and Energy Society General Meeting, 2012 IEEE. (EI:20125015784367)

[224] Jin Tan, Xiaoru Wang, Zhe Chen, Ming Li. Impact of a Direct-drive Permanent Magnet Generator (DDPMG) Wind Turbine System on Power System Oscillations[C]. IEEE Power and Energy Society General Meeting, p1-5, San Diego, CA, USA, 22-26 July 2012. (EI:20125015783983)

[225] Peng Zhang, James S. Thorp, Xiaoru Wang, Xing Wei, The Effect of Electromechanical Wave Controllers on Inter-Area Modes[C]. IEEE Power and Energy Society General Meeting, p1-5, San Diego, CA, USA, 22-26 July 2012. (EI:20125015783721)

[226] Li Ming, Wang Xiaoru, and Tan Jin．The Analysis of Interharmonics Generated by VSI-Fed Adjustable Speed Drives Considering Mechanical Load Fluctuations[C]．Power Engineering and Automation Conference , PEAM 2012, Wuhan, China, 14-16 September 2012.（EI：20134416923787）

[227] CAO Zhangjie，WANG Xiaoru，TAN Jin. Control Strategy of Large-scale DFIG-based Wind Farm for Power Grid Frequency Regulation. The 31st Chinese Control Conference， July 25-27，2012，Hefei，CHINA. (EI：20130716024644)

[228] XIANG Rong, WANG Xiaoru,TAN Jin. Operation Control of Flywheel Energy Storage System with Wind Farm. The 30th Chinese Control Conference, Yantai, July 2011.(EI：20113914369239)

[229] LiPing Wang, XiaoRu Wang. Transformer Differential Protection Using Calculated Power[C]. Proceedings 2011 International Conference on Advanced Power System Automation and Protection, Oct. 16th-20th 2011, Beijing China, 363-367. (EI：20121915009680)

[230] [187] Jin Tan, Z. C. , Xiaoru Wang, SMALL SIGNAL STABILITY ANALYSIS OF A DDPMG-BASED WIND POWER SYSTEM[C]. Ninth Nordic Conference on Electricity Distribution System Management and Development Aalborg Denmark, 2010. (EI:20152500948245)

[231] Wang Delin, Wang Xiaoru.  Analysis on Electromechanical Disturbance Propagation in a Finite Length Uniform Chain Discrete Power System. 2010 APPEEC, Chengdu, China, March, 30 - Apr. 2. (EI：20102212971331)

[232] Wang Delin, Wang Xiaoru.  Study on Electromechanical Distance of Electrical Power System. 2010 APPEEC, Chengdu, China, March, 30 - Apr. 2. (EI：20102212971339)

[233] Ketian Liu, Xiaoru Wang. Dynamic frequency simulation and study on turbine-generator including the effect of boiler and fuel system. The 2nd Asia-Pacific Power and Energy Engineering Conference, APPEEC 2010, 2010, Chengdu, China. (EI：20102212971301)

[234] Xueyuan Dong, Kenneth Hopkinson, Xiaoyang Tong, Xiaoru Wang, James Thorp. IP-based communication systems for wide-area frequency stability predictive control, presented at the Fifth International Conference on Critical Infrastructure, Beijing, China, Sep. 20-21, 2010, Paper 658. (EI：20105013483076)

[235] Jin Tan, Z. C. , Xiaoru Wang, SMALL SIGNAL STABILITY ANALYSIS OF A DDPMG-BASED WIND POWER SYSTEM, in Ninth Nordic Conference on Electricity Distribution System Management and Development Aalborg Denmark, 2010.

[236] Delin Wang, and Xiaoru Wang, Senior Member, IEEE. Analytical study on electromechanical wave propagation in a non-uniform continuum power system[C]. 3rd International Conference on Deregulation and Restructuring and Power Technologies, DRPT 2008, p 958-963, 2008. (EI:20083511478294)

[237] Tong Xiaoyang, Wang Xiaoru, Ding Li. Study of information model for wide-area backup protection agent in substation based on IEC61850. 3rd International Conference on Deregulation and Restructuring and Power Technologies, DRPT 2008, p 2212-2216, 2008. (EI:083411476682)

[238] Xiaoyang, Tong;Xiaoru, Wang,Agent-oriented petri net based modeling of dynamic behavior for wide-area backup protection. Source: Proceedings - SNPD 2007: Eighth ACIS International Conference on Software Engineering, Artificial Intelligence, Networking, and Parallel/Distributed Computing, v 2,2007, p 160-165. (EI:074110862532)

[239] Delin Wang; Xiaoru Wang; Thorp, J.S. Study on electromechanical wave continuum model for power systems in mechanics. Power Engineering Society General Meeting, 2006. IEEE 18-22 June 2006 Page(s): Page(s):9pp. (EI:074310882719)

[240] Delin Wang; Xiaoru Wang; Yi Fang; Wenbin Hao. Study on Dynamic Characteristics of Electromechanical Wave in the Continuum Model for Power System. International Conference on Power System Technology, 22-26 October, 2006, Chongqing, China Page(s):1 -7

[241] Xiaoyang Tong; Xiaoru Wang; Jun Tang. The Cooperative Modeling of Wide-area Protection Multi-agent Based on Organization.  International Conference on Power System Technology, 22-26 October, 2006, Chongqing, China Page(s):1 – 6

[242] Guodong Liao; Hopinson, K.M.; Jun Tang; Li Ding; Xiaoru Wang. A Simulation Study on the Ethernet Communication of a Substation Automation System based on EPOCHS. International Conference on Power System Technology, 22-26 October, 2006, Chongqing, China Oct. 2006 Page(s):1 – 7

[243] Xiaoyang, Tong; Guodong, Liao; Xiaoru, Wang; Shan Zhong. The analysis of communication architecture and control mode of wide area power systems control. Proceedings - 2005 International Symposium on Autonomous Decentralized Systems, ISADS 2005, p 59-65. (EI:06249933753)

[244] James S. Thorp, Xiaoru Wang, Kenneth M. Hopkinson, Denis Coury and Renan Giovanini,"Agent Technology applied to the protection of power systems", 2nd International Conference on Securing Critical Infrastructures, Grenoble, France, October 25-27, 2004

[245] Hopkinson, K.M., Birman, K.P., Giovanini, R., Coury, D. V., Wang, X. R. and Thorp J. S.EPOCHS: Integrated commercial off-the-shelf software for agent-based electric power and communication simulation[C]. Computer Science Department, Cornell University, Ithaca, NY 14853, United States, v2, Dec. 7-10, 2003, p 1158-1166 (EI:04068006276)

[246] Xiaoru wang, Qingquan Qian, Qeirong Chen. Analyzing Fault-Induced Transients with Wavelets[C]. Power Engineering Society Summer Meeting, 2002 IEEE Volume 3, 25-25 July 2002 Page(s):1090–1093. (EI:03277525731)

[247] X. R. Wang, K. M. Hopkinson, J. S. Thorp, et al., Developing an Agent-based Backup Protection System for Transmission Networks[C]. IEEE International conference: Power System and Communications Infrastructures for the Future, September 2002, Beijing.