第22卷第11期 刘梦欣等电力系统频率控制理论与发展 143 Society General Meeting,Denver.6-10 June 2004,2: on Power Systems,1989,4(2):730-738 1715-1720. [201 孟祥萍，薛昌飞，张化光.多区域互联电力系统的PI [8]赵庆波，曾鸣，刘敏，等.电力市场中的负荷频率控制 滑模负荷频率控制).中国电机工程学报，2001,21(3)： 方案研究).中国电机工程学报，2002,22(11)：45-50. 6-11. Zhao Q B,Zeng M,Liu M,et al.Research on controlling Meng X P,Xue C F,Zhang H G.PI sliding mode load approaches to load frequency in electricity market[J]. frequency control of multi-area power system[J]. Proceedings of the CSEE,2002,22(11):45-50 Proceedings of the CSEE,2001,21(3):6-11. [9]Cohn N.Control of generation and power flow on [21]Wang Y,Zhou R,Wen C.Robust load-frequency interconnected power systems[M].New York:John Wiley controller design for power systems[J].IEE Proceedings- &Sons,1991. C,1993,140(1)少11-16. [10]Gjerde O,Gleude I,Nilssen G,et al.Coordination of [22]Wang Y,Zhou R,Wen C.New robust adaptive power system operation in a competitive power market load-frequency control with system parametric environment[J].CIGRE,Paris,France,28 August-3 uncertainties[J].IEE Proceedings-Generation,Transmission September,1997:39-204. &Distribution,1994,141(3):184-190. [11]Jeffries D.Changes and challenges for the national [23]Yang T C,Ding Z T,Yu H.Decentralized power system grid[J].Modern power system,1992,6(Sup.):23-25 load frequency control beyond the limit of diagonal [12]赵庆波.电力市场环境下辅助服务市场和电网频率控 dominance[J].Electrical Power and Energy Systems 制的理论与实证研究D1.华北电力大学：工商管理学 2002,24:173-184 院，2004. [24]Hassan B,Yasunori M,Kiichiro T,et al.Bilateral based [13]Kundur P.Power System Stability and Control[M].New robust load frequency control[J].Energy Conversion and York:McGraw Hill,1994. Management,.2005,46(7-8):1129-1146. [14]杨振宽.电工最新基础标准应用手册M刈.2版.北京： [25]吴晓峰，张浩.电力系统中人工智能的应用与研究 机械工业出版社，2003. [.工业控制计算机，2003,16(4)：14-16. [15]Kirchmayer L K.Economic control of interconnected WuX F,Zhang H.Artificial intelligence application and systems[M].New York:Wiley,1959 study in power system[J].Industrial Control Computer, [16]Fosha C E,Elgerd O I,The megawatt-frequency control 2003,16(4):14-16. problem:A new approach via optimal control theory[J], [26]Beaufays F,Abdelmagid Y C.Widrow B.Application of IEEE Transactions on Power Application Systems,1970, neural networks to load frequency control in power 892):551-556 systems[J].Neural Networks,1994,7(1):183-194. [17]Velusami S,Chidambaram I A.Decentralized biased dual [27]Djukanovic M,Sobajic D J,Yoh-han P.Conceptual mode controllers for load frequency control of development of optimal load frequency control using interconnected power systems considering GDB and artificial neural networks and fuzzy set theory[J.Int.J. GRC non-linearity[J].Energy Conversion and Electrical Power and Energy Systems,1997,19(8): Management,2006,12:1-12. 489-499. [18]孟祥萍，薛昌飞，张化光.基于Ackermann公式的分散 [28]Shayeghi H,Shayanfar H A.Application of ANN 滑模负荷频率控制[U.东北大学学报（自然科学版）， technique based on u-synthesis to load frequency control 2000,21(2):128-131. of interconnected power system[J].Electrical Power and Meng X P,Xue C F,Zhang H G.Decentralized sliding Energy Systems,2006,28:503-511. mode load frequency control based on Ackermann's [29]Ghoshal S P.Goswami S K.Application of GA based formula[J].Journal of Northeastern University (natural optimal integral gains in fuzzy based active science edition),2000,21(2):128-131. power-frequency control of non-reheat and reheat thermal [19]Kothari M L.Nanda J,Koathari D P,et al.Discrete-mode generating systems[J].Electric Power Systems Research, automatic generation control of a two-area reheat thermal 2003,67:79-88. system with new area control error[J].IEEE Transactions [30]高峰，秦翼鸿，徐国禹.互联电力系统模糊负荷频率控第 22 卷第 11 期 刘梦欣等 电力系统频率控制理论与发展 143 Society General Meeting, Denver, 6-10 June 2004, 2: 1715-1720. [8] 赵庆波, 曾鸣, 刘敏, 等. 电力市场中的负荷频率控制 方案研究[J]. 中国电机工程学报, 2002, 22(11): 45-50. Zhao Q B, Zeng M, Liu M, et al. Research on controlling approaches to load frequency in electricity market[J]. Proceedings of the CSEE, 2002, 22(11): 45-50. [9] Cohn N. Control of generation and power flow on interconnected power systems[M]. New York: John Wiley & Sons, 1991. [10] Gjerde O, Gleude I, Nilssen G, et al. Coordination of power system operation in a competitive power market environment[J]. CIGRE, Paris, France, 28 August-3 September, 1997: 39-204. [11] Jeffries D. Changes and challenges for the national grid[J]. Modern power system, 1992, 6 (Sup.): 23-25 [12] 赵庆波. 电力市场环境下辅助服务市场和电网频率控 制的理论与实证研究[D]. 华北电力大学: 工商管理学 院, 2004. [13] Kundur P. Power System Stability and Control[M]. New York: McGraw Hill, 1994. [14] 杨振宽. 电工最新基础标准应用手册[M]. 2 版. 北京: 机械工业出版社, 2003. [15] Kirchmayer L K. Economic control of interconnected systems[M]. New York: Wiley, 1959. [16] Fosha C E, Elgerd O I, The megawatt-frequency control problem: A new approach via optimal control theory[J], IEEE Transactions on Power Application Systems, 1970, 89(2): 551-556. [17] Velusami S, Chidambaram I A. Decentralized biased dual mode controllers for load frequency control of interconnected power systems considering GDB and GRC non-linearity[J]. Energy Conversion and Management, 2006, 12: 1-12. [18] 孟祥萍, 薛昌飞, 张化光. 基于 Ackermann 公式的分散 滑模负荷频率控制[J]. 东北大学学报(自然科学版), 2000, 21(2): 128-131. Meng X P, Xue C F, Zhang H G. Decentralized sliding mode load frequency control based on Ackermann’s formula[J]. Journal of Northeastern University (natural science edition), 2000, 21(2): 128-131. [19] Kothari M L, Nanda J, Koathari D P, et al. Discrete-mode automatic generation control of a two-area reheat thermal system with new area control error[J]. IEEE Transactions on Power Systems, 1989, 4(2): 730-738. [20] 孟祥萍, 薛昌飞, 张化光. 多区域互联电力系统的 PI 滑模负荷频率控制[J]. 中国电机工程学报, 2001, 21(3): 6-11. Meng X P, Xue C F, Zhang H G. PI sliding mode load frequency control of multi-area power system[J]. Proceedings of the CSEE, 2001, 21(3): 6-11. [21] Wang Y, Zhou R, Wen C. Robust load-frequency controller design for power systems[J]. IEE Proceedings￾C, 1993, 140(1): 11-16. [22] Wang Y, Zhou R, Wen C. New robust adaptive load-frequency control with system parametric uncertainties[J]. IEE Proceedings-Generation, Transmission & Distribution, 1994, 141(3): 184-190. [23] Yang T C, Ding Z T, Yu H. Decentralized power system load frequency control beyond the limit of diagonal dominance[J]. Electrical Power and Energy Systems, 2002, 24: 173-184. [24] Hassan B, Yasunori M, Kiichiro T, et al. Bilateral based robust load frequency control[J]. Energy Conversion and Management, 2005, 46(7-8): 1129-1146. [25] 吴晓峰, 张浩. 电力系统中人工智能的应用与研究 [J]. 工业控制计算机, 2003, 16(4): 14-16. Wu X F, Zhang H. Artificial intelligence application and study in power system[J]. Industrial Control Computer, 2003, 16(4): 14-16. [26] Beaufays F, Abdelmagid Y C, Widrow B. Application of neural networks to load frequency control in power systems[J]. Neural Networks, 1994, 7(1): 183-194. [27] Djukanovic M, Sobajic D J, Yoh-han P. Conceptual development of optimal load frequency control using artificial neural networks and fuzzy set theory[J]. Int. J. Electrical Power and Energy Systems, 1997, 19(8): 489-499. [28] Shayeghi H, Shayanfar H A. Application of ANN technique based on µ-synthesis to load frequency control of interconnected power system[J]. Electrical Power and Energy Systems, 2006, 28: 503-511. [29] Ghoshal S P, Goswami S K. Application of GA based optimal integral gains in fuzzy based active power-frequency control of non-reheat and reheat thermal generating systems[J]. Electric Power Systems Research, 2003, 67: 79-88. [30] 高峰, 秦翼鸿, 徐国禹. 互联电力系统模糊负荷频率控