[1] Abdalla, AN, Li K, Cheng SJ, Wen JY, Zhang J. Parameter identification of governor-turbine system based on a PSO algorithm. Dynamics of Continuous Discrete and Impulsive Systems-Series B-Applications & Algorithms, 2007, 14: 1-6.

[2] J. Zhang, J. Wen, S. Cheng, and J. Ma, “A Novel SVC Allocation Method for Power System Voltage Stability Enhancement by Normal Forms of Diffeomorphism,” IEEE Transactions on Power Systems, vol. 22, no. 4, pp. 1819–1825, 2007.

[3] S. J. Cheng, Y. J. Tang. High temperature SMES for improving power system stabilities. Science in China Series E-Technological Science, 50(4)(2007): 402-412.

[4] 程时杰，余文辉，文劲宇*，孙海顺，王海风. 储能技术及其在电力系统稳定控制中的应用[J]. 电网技术，2007，31(20): 97-108.

[5] 王少荣，彭晓涛，唐跃进，文劲宇*，程时杰，徐德鸿. 电力系统稳定控制用高温超导磁储能装置及实验研究[J]. 中国电机工程学报，2007，27(22): 44-50.

[6] 姚伟，程时杰，文劲宇*. 直流输电技术在海上风电场并网中的应用[J]. 中国电力，2007，40(10): 70-74.

[7] 袁旭峰，文劲宇*，程时杰. 多端直流输电系统中的直流功率调制技术[J]. 电网技术，2007，31(14): 57-78.

[8] 张靖，程时杰，文劲宇*，彭志炜. 通过选择SVC安装地点提高静态电压稳定性的新方法[J]. 中国电机工程学报，2007，27(34): 7-11.

[9] 李刚，程时杰，文劲宇*，潘垣. 基于储能型稳控装置的电力系统阻尼特性分析[J]. 电力系统自动化，2007，31(17): 11-20.

[10] 苏永春，程时杰，文劲宇*. 电力系统动态稳定性的解析延拓分析[J]. 中国电机工程学报，2007，27(4): 9-14.

[11] 袁旭峰，文劲宇*，程时杰. 与弱交流系统相连接的HVDC系统临界换相电压降及逆变站的运行范围[J]. 电网技术，2007，31(19): 24-30.

[12] 辛颂旭，李刚，文劲宇*，程时杰，潘垣. 柔性功率调节器用变换器故障状态运行特性分析[J]. 中国电机工程学报，2007，27(25): 67-72.

[13] 程时杰，文劲宇*，潘 垣. 一种新型电力系统稳定控制装置[J]. 继电器， 2007，35 (1): 1-12.

[14] 张靖，杨慧敏，李悝，文劲宇*，程时杰. 基于广域测量系统的电力系统综合区域负荷模型[J]. 电力系统自动化，2007，31(20): 17-21.

[15] 骆玲，文劲宇*. PSS/E用户自定义功能在励磁系统建模中的应用研究[J]. 电气应用，2007，26(8): 21-24.

[16] 苏永春, 程时杰, 文劲宇*.用于提高电压稳定裕度的发电机无功出力管理[J]. 电力自动化设备，2007，27(6): 39-42.

[17] 刘勇，李刚，文劲宇*，程时杰，潘垣. 柔性功率调节器用PWM整流器的设计[J]. 电气应用，2007，26(5): 56-59.

[18] 李刚，刘晓瑞，文劲宇*，程时杰，潘垣. 多功能柔性功率调节器的矢量励磁控制[J]. 电力自动化自动化，2007，27(3): 5-9.

[19] 姚伟，杨毅，孙海顺，文劲宇*，程时杰. 可控串联电容补偿动态模拟实验装置设计[J]. 电力自动化设备，2007，27(12): 76-80.

[20] 骆玲，孙剑波，李大虎，文劲宇*，程时杰. 基于SIMULINK和GA 的电力系统智能辨识法[J]. 高电压技术，2007，33(12): 130-133.

[21] 李新东，卢文华，文劲宇*，吴丹岳，宋福海，王大光. 发电机励磁系统建模试验的扰动信号输入法[J]. 高电压技术，2007，33(6): 147-150.

[22] 徐光跃，骆玲，文劲宇*. 基于嵌入式Linux的高压开关室SF6气体在线监测系统[J]. 电工技术，2007(02): 30-33.

[23] H. I. Shaheen, G. I. Rashed, and S. Cheng, “Application of Evolutionary Optimization Techniques for Optimal Location and Parameters Setting of Multiple UPFC Devices,” ICNC 2007, 2007 3nd International Conference on Natural Computation, vol. 4, pp. 688–697.

[24] G. I. Rashed, H. I. Shaheen, and S. Cheng, “Optimal Location and Parameter Setting of TCSC by Both Genetic Algorithm and Particle Swarm Optimization,” ICIEA 2007, 2007 2nd International Conference on Industrial Electronics and Applications, pp. 1141–1147.

[25] G. I. Rashed, H. I. Shaheen, and S. Cheng, “Optimal Location and Parameter Settings of Multiple TCSCs for Increasing Power System Loadability Based on GA and PSO Techniques,” ICNC 2007, 2007 3rd International Conference on Natural Computation, vol. 4, pp. 335–344.

[26] H. Shaheen, G. Rashed, and S. Cheng, “Optimal Location and Parameters Setting of Unified Power Flow Controller Based on Evolutionary Optimization Techniques,” 2007 IEEE Power Engineering Society General Meeting, pp. 1–8.

[27] H. Yi, Y. Hou, S. Cheng, H. Zhou, and G. Chen, “Power System Probabilistic Small Signal Stability Analysis Using Two Point Estimation Method,” 37th International Universities Power Engineering Conference, UPEC 2007 - Conference Proceedings, pp. 402–407.

[28] A. N. Abdalla, K. Li, S. J. Cheng, J. Y. Wen, J. Zhang. Parameter identification of governor-turbine system based on a PSO algorithm. 2007, 1st International Conference Bio-Inspired Computing -Theory and Applications, Wuhan, China.

[29] Y. Zhao, X. D. Zou, D. C. Huang, X. M. Liu, F. X. Cao, Y. Kang, S. J. Cheng. Research on excitation control of flexible power conditioner doubly fed induction machine. 2007, 38th IEEE Power Electronic Specialists Conference, Orlando, FL.

[30] D. C. Huang, Y. Zhao, X. D. Zou, X. M. Liu, F. X. Cao, Y. Kang, S. J. Cheng. Direct-start of the flexible power conditioner with back-to-back converters. 2007, 38th IEEE Power Electronic Specialists Conference, Orlando, FL.

[31] G. I. Rashed, H. I. Shaheen, X. Z. Duan, S. J. Cheng. Evolutionary optimization techniques for optimal location and parameter setting of TCSC under single line contingency. 2007, International Conference on Life System Modeling and Simulation, Shanghai, China.

[32] L. Ren, Y. Tang, J. Shi, N. Chen, J. Li, S. Cheng. Cryocooler cooled HTS current lead for a 35 kJ/7 kW-class high-T-c SMES system. 2007, 20th International Symposium on Superconductivity, Tsukuba, Japan.

[33] Z. Sun, Y. Tang, N. Chen,L. Ren,J. Li, S. Cheng, Y. Pan , “The feasibility study and optimal design of SMES using MgB2 tape”, Superconductivity, vol. 35 no. 1,pp.41-43,35 2007.