[1]Schweitzer G,Bleuler H,Traxler A. Active Magnetic Bearings-- basics, Properties and Application of Active Magnetic Bearings [ M]. ETH, Switzerland : Hochschulverlag AG, 1994.
[2]Habermann H, Maurice B. The Active Magnetic Bearing Enables Optimum Damping of Flexible Rotors [C]//ASME International Gas Turbine Conference. Amsterdam: ASME, 1984:84-GT-117.
[3]Burrows C R,Sahinkaya M N. Vibration Control of a Multi--mode Rotor--bearing System[C]//Royal Society. Proceedings of the Royal Society. London: Royal Society, 1983 : 77-94(A 386).
[4]Burrows C R, Sahinkaya M N, Clements S. Active Vibration Control of Flexible Rotors:an Experimental and Theoretical Study[C]//Royal Society. Proceedings of the Royal Society. London.. Royal Society,1989:123-146(A 422).
[5]Knospe C R, Humphris R R, Sundaram S. Magnetic Bearings for Rotor Unbalance Response Attenuation [C]//Proceedings of MAG ' 91 - Magnetic Bearings, Magnetic Drives and Dry Gas Seals Conference & Exhibition. Alexandria, 1991 : 13-15.
[6]Knospe C R. Robustness of Unbalance Response Controllers[C]//Proeeedings of Third International Symposium on Magnetic Bearings. Alexandria, 1992 : 580-589.
[7]Knospe C R,Humphris R R,Maslen E H,et al. Active Balancing of a High Speed Rotor in Magnetic Bearings[C]//Proceedings of the International Conference on Rotating Machinery Dynamics. Venice: Springer Verlag, 1992 : 28-30.
[8]Knospe C R, Hope R W, Fedigan S J,et al. Adaptive online Rotor Balancing Using Digital Control [C]//Proceedings of MAG'93-- Magnetic Bearings,Magnetic Drives and Dry Gas Seals Conf. Exhib: Alexandria, 1993 :153-164.
[9]Knospe C R,Tamer S M,Fedigan S J. Robustness of Adaptive Rotor Vibration Control to Structured Un- eertainty[J]. Journal of Dynamic Systems, Measurement, and Control, 1997,119 (2) : 243-250.
[10]Herzog R, Buhler P, Gahler C, et al. Unbalance Compensation Using Generalized Notch Filters in the Multivariable Feedback of Magnetic Bearings [J]. IEEE Transactions on Control Systems Tech nology, 1996,4(5) : 580-586.
[11]Shafai B, Beale S, LaRocca P, et al. Magnetic Bearing Control Systems and Adaptive Forced Balancing[J]. IEEE Control Systems Magazine, 1994, 14(2) :4-13.
[12]Vahedforough E,Shafai B, Beale S. Estimation and Rejection of Unknown Sinusoidal Disturbances Using a Generalized Adaptive Forced Balancing Method[C]//Proeeedings of the 2007 American Control Conference. New York, 2007 : 3529-3534.
[13]Lure K Y, Coppola V T, Bernstein D S. Adaptive Autocentering Control for an Active Magnetic Bearing Supporting a Rotor with Unknown Mass Imbalance[J]. IEEE Transactions on Control Systems Technology, 1996,4(5) :587-597.
[14]Na H S,Park Y. An Adaptive Feedforward Controller for Rejection of Periodic Disturbances[J]. Journal of Sound and Vibration,1997,201(4):427-435.
[15]Shi J, Zmood R, Qin L J. The Direct Method for Adaptive Feed- forward Vibration Control of Magnetic Bearing Systems[C]//Proceedings of the 7th International Conference on Control, Automation, Robotics and Vision(ICARCV 2002). Singapore, 2002 : 675-680.
[16]Nonami K,Fan Q F,Ueyama H. Unbalance Vibration Control of Magnetic Bearing Systems Using Adaptive Algorithm with Disturbance Frequency Estimation[C]//Proceedings of the Sixth International Symposium on Magnetic Bearings. Cambridge, 1998 : 663-672.
[17]Shi J, Zmood R, Qin L. The Indirect Method for Adaptive Feed- forward Vibration Control of Magnetic Bearing Systems [C]//Proceedings of the Eighth International Symposium on Magnetic Bearings. Mito, 2002:223-228.
[18]Markert R, Skricka N, Zhang X T. Unbalance Compensation on Fexible Rotors by Magnetic Bearings Using Transfer Functions[C]//Proceedings of the 8th International Symposium on Magnetic Bearings. Mito, 2002 : 417-442.
[19]Nonami K,Liu Z H. Adaptive Unbalance Vibration Control of Magnetic Bearing System Using Frequency Estimation for Multiple Periodic Disturbances with Noise [C]//Proceedings of the 1999 IEEE International Conference on Control Applications. Hawaii, 1999 : 576-581.
[20]Sivrioglu S,Nonami K. LMI Based Gain Scheduled H∞ Controller Design for AMB Systems under Gyroscopic and Unbalanced Disturbance Effect [C]//Proceedings of the 5th International Symposium on Magnetic Bearings. Kanazawa, 1996 : 191- 196.
[21]Matras A L,Flowers G T,Fuentes R,et al. Suppression of Persistent Rotor Vibrations Using Adaptive Techniques[J]. Journal of Vibration and Acoustics(ASME) ,2006,128(6) :682-689.
[22]Mohamed A M,Hassan I M,Hashem A M K. Application of Discrete-- time Gain-- scheduled Qparameterization Controller to Magnetic Bearing Systems with Imbalance[C]//Proeeedings of the Amcncan Control Conference. San Diego, 1999: 737-741.
[23]Matsumura F, Namerikawa T, Hagiwara K, et al. Application of Gain Scheduled H∞ Robust Controllers to a Magnetic Bearing[J]. IEEE Trans. on Control System Technology, 1996,4 (5) : 484-492.
[24]Chiacchiarini H G, Mandolesi P S. Unbalanced Compensation for Active Magnetic Bearings Using ILC[C]//IEEE Conference on Control Applications- Proceedings. Mexico, 2001 : 58-63.
[25]Mohamed A M, Matsumura H, Namerikawa T, et al. Q--parameterization Control of Vibrations in a Variable Speed Magnetic Bearing [C]//Proceedings of the 1997 IEEE International Conference on Control Applications. Hartford, 1997 :540-546.
[26]Paul M, Hofmann W. Compensation for Unbalances at Magnetic Bearings[C]//Proceedings of the International Conference on Computational Intelligence, Theory and Applications. Dortmund, 1997 : 501-509.
[27]Bi C, Wu D Z,Jiang Q. Runout Compensation in Active Magnetic Bearings with Iterative Learning Control Scheme[C]//Asia-- Pacific Magnetic Recording Conference. Seoul, 2004 : 66-67.
[28]Setiawan J D,Mukherjee R, Maslen E H. Synchronous Sensor Runout and Unbalance Compensation in Active Magnetic Bearings Using Bias Current Excitation[J]. Journal of Dynamic Systems, Measurement and Control,2002,124(3): 14-24.
[29]Setiawan J D,Mukherjee R, Maslen E H. Adaptive Compensation of Sensor Runout for Magnetic Bearings with Uncertain Parameters: Theory and Experiments [J]. Journal of Dynamic Systems, Measurement and Control, 2001,123 ( 2 ) : 211-218.
[30]张德魁,江伟.磁悬浮轴承系统不平衡振动控制的方法[J].清华大学学报:自然科学版,2000,40(10):28-31.
[31]Adler K,Schalk C, Nordmann R, et al. Active Magnetic Bearings Combined with Active Balancing Devices for Overcritical Operated Rotors [C]// Proceedings of 10th International Symposium on Magnetic Bearings. Martigny, 2006: 49-54.
[32]张涛[1],朱熀秋[1].无轴承永磁同步电机转子质量不平衡补偿控制[J].中国电机工程学报,2007,27(15):33-37.
[33]汤亮[1],陈义庆[2].不平衡振动自适应滤波控制研究[J].宇航学报,2007(6):1569-1574.
[34]黄晓蔚,唐钟麟.电磁轴承系统实现自动平衡的一种新方法[J].机械工程学报,2001,37(7):96-99.
[35]胡业发[1],高小明[1],吴华春[1].磁悬浮转子不平衡补偿的研究[J].机械制造,2006,44(8):24-26.
[36]Zhou S Y,Shi J J. Active Balancing and Vibration Control of Rotating Machinery: a Survey[J]. The Shock and Vibration Digest, 2001, 33 ( 4 ) : 361 -371.
[37]韩辅君[1],房建成[1],刘刚[1].磁悬浮飞轮磁轴承系统变增益H∞控制器设计[J].系统工程与电子技术,2008,30(9):1748-1751.
[38]王晓刚[1],邓智泉[1],王晓琳[1],赵旭升[1].基于最优控制的转子不平衡补偿的研究[J].电子机械工程,2008,24(4):61-64. |