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Method and apparatus for tuning control system parameters 원문보기

IPC분류정보
국가/구분 United States(US) Patent 등록
국제특허분류(IPC7판)
  • G05B-013/00
출원번호 US-0377881 (1999-08-19)
발명자 / 주소
  • Yutkowitz Stephen J.
출원인 / 주소
  • Siemens Energy & Automation, Inc.
대리인 / 주소
    Dinsmore & Shohl LLP
인용정보 피인용 횟수 : 65  인용 특허 : 32

초록

A method and apparatus for tuning control loop parameters in a motion control system, is provided. In one embodiment, tuning of the proportional and integral gains of a servocontroller's velocity loop compensator is provided, as well as tuning of the cutoff frequencies of the servocontroller's low p

대표청구항

[What is claimed is:] [1.]setting original parameters in the servocontroller;applying an excitation signal containing energy over a predefined range of frequencies to the control system;measuring a frequency response of the control system in response to the excitation signal across a range of freque

이 특허에 인용된 특허 (32)

  1. York James E. (Endicott NY), Advanced digital motion control.
    상세보기
  2. Matsumoto Kouki (Aichi JPX), Apparatus for and method of automatically tuning and setting control parameters for a numerical control unit.
    상세보기
  3. Svarovsky James E. (Sagamore Hills OH) Baechtel Donald F. (Lyndhurst OH) Day Chia P. (Solon OH), Automatic tuning apparatus for PID controllers.
    상세보기
  4. Morel Guillaume,FRX ; Dubowsky Steven, Base force/torque sensor apparatus for the precise control of manipulators with joint friction and a method of use ther.
    상세보기
  5. Kato Tetsuaki,JPX ; Tsuchida Yukinobu,JPX, Control method for servo system with adjustable softness in rectangular coordinate system.
    상세보기
  6. Thoen Bradford K. (Eden Prairie MN), Control network with on-line iteration and adaptive filter.
    상세보기
  7. Nomura Masakatsu (Kanagawa JPX) Ashikaga Tadashi (Tokyo JPX) Hori Michitaka (Tokyo JPX) Mizuno Takayuki (Aichi JPX) Ichioka Tadashi (Aichi JPX), Control system for controlling revolution speed of electric motor.
    상세보기
  8. Yoneda Takao (Nagoya JPX) Kato Tomonari (Kariya JPX) Yonezu Toshihiro (Nishio JPX), Digital servo-control apparatus.
    상세보기
  9. Iwashita Yasusuke (Minamitsuru JPX), Feedforward control method for a servomotor.
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  10. Iwashita Yasusuke (Oshino JPX), Feedforward control method for servomotors.
    상세보기
  11. Sember James W. (Roanoke VA) Walker Loren H. (Salem VA), Frequency measurement system.
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  12. Kobayashi Seiichi,JPX ; Miura Ichiro,JPX, Method and apparatus for automatically adjusting a gain of a servomechanism.
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  13. Wise William L. (Mountain View CA), Method and apparatus for improving dynamic response of a feedback control loop by generating a common-mode gain.
    상세보기
  14. Rastegar Jahangir S. (Roslyn NY) Fardanesh Behruz (Chestnut Ridge NY), Method and apparatus for trajectory control of robot manipulators or the like.
    상세보기
  15. Chaffee Mark A. (Etna NH) Rehm Thomas J. (Mequon WI), Method and apparatus for tuning a motion control system.
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  16. Chaffee Mark A. (Etna NH), Method and apparatus for tuning a motion control system having an external velocity loop.
    상세보기
  17. Anderson Robb Gary (Wausau WI) Lorenz Robert D. (Madison WI) Meyer Andrew Joseph (Schofield WI), Method for coordinating motion control of a multiple axis machine.
    상세보기
  18. Torii Nobutoshi (Hachioji) Nihei Ryo (Minamitsuru) Kato Tetsuaki (Minamitsuru JPX), Method of adjusting gain for motor control.
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  19. Sato Tetsuya,JPX ; Kawamura Yoshio,JPX, Motor control apparatus.
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  20. Haynes Howard D. (Kingston TN) Eissenberg David M. (Oak Ridge TN), Motor current signature analysis method for diagnosing motor operated devices.
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  21. Moulds ; III Clinton W. (Millersville MD), Multivariable adaptive vibration canceller.
    상세보기
  22. Bristol Edgar H. (Foxboro MA) Hansen Peter D. (Wellesley MA), Multivariable feedforward adaptive controller.
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  23. Yoneda Takao (Nagoya JPX) Ohmura Haruo (Aichi JPX), Numerical control feed device for machine tool.
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  24. Teshima Takeo (Aichi JPX), Numerical control unit for estimating movement parameters using a model.
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  25. Hiroi Kazuo (Hachiouji JPX) Ito Kojiro (Machida JPX), Process control apparatus for optimal adaptation to a disturbance.
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  26. Onaga Eimei M. (Brookfield Center CT) Casler ; Jr. Richard J. (Newton CT) Penkar Rajan C. (Woodbury CT) Lancraft Roy E. (Southbury CT) Sha Chi (Pittsburgh PA), Robot control system having adaptive feedforward torque control for improved accuracy.
    상세보기
  27. Torii Nobutoshi (Hachioji JPX) Nihei Ryo (Yamanashi JPX) Kato Tetsuaki (Yamanashi JPX), Sliding mode control method with a feedforward compensation function.
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  28. Tajima Fumio (Juo JPX) Katayama Hiroshi (Hitachi JPX) Endo Tunehiro (Hitachioota JPX) Miyashita Kunio (Hitachi JPX) Narushima Seiichi (Naka JPX) Ohya Jun (Katsuta JPX) Saito Kouchi (Kitaibaraki JPX), Speed control apparatus of movable equipment.
    상세보기
  29. Kohring Mark D. (West Chester OH), Stability high gain and dynamic stiffness servo axis drive system and method.
    상세보기
  30. Kohring Mark D. (West Chester OH), Stability high gain and dynamic stiffness servo axis drive system and method.
    상세보기
  31. Yim Chung Hyuk,KRX, Velocity control method and apparatus for servo motors.
    상세보기
  32. Kim Dong-Il (Seoul KRX), Velocity control method for a synchronous AC servo motor.
    상세보기

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  1. Christ, Bernard J.; Most, Egbert E.; Zanger, Peter K., Adaptive servo motor retuning method and system.
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  2. Akiyama, Shigeki, Apparatus, method and program for controlling an electric motor.
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  3. Ellis, George; Brewster, Erik, Auto-tune of a control system based on frequency response.
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  4. Ramamoorthy,Subramanian; Falcon,Jeanne S., Automatic tuning of motion controllers using search techniques.
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  5. Yutkowitz, Stephen J., Automating tuning of a closed loop controller.
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  6. Selmic, Rastko R.; Lewis, Frank L.; Calise, Anthony J.; McFarland, Michael B., Backlash compensation using neural network.
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  7. Campos,Javier; Lewis,Frank L., Backlash compensation with filtered prediction in discrete time nonlinear systems by dynamic inversion using neural networks.
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  8. Yoo,Ho sun; Seok,Jul ki, Control method of PI controller.
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  9. Ruck, Otto, Control of an operation of a coordinate measuring device.
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  10. Gudaz, John A.; Zhang, Yan; Wojsznis, Wilhelm K., Determining tuning parameters for a process controller from a robustness map.
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  11. Nussbaum,Michael B.; Shannon,Michael R.; Stewart,Frederick A., Digital control servo system.
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  12. Nussbaum,Michael B; Shannon,Michael R; Stewart,Fredrick A, Digital control servo system.
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  13. Gao, Zhiqiang; Tian, Gang, Extended active disturbance rejection controller.
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  14. Lee, Chien-Yi; Hsieh, Hung-Chieh; Chen, Cheng-Yu; Nien, Hao-Wei; Lin, Yi-Ying, Goal-oriented numerical control automatic tuning system and method.
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  15. Beamish, Norman J.; Damgaard, Morten; Domino, William J., Internal calibration system for a radio frequency (RF) transmitter.
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  17. Hamann,Jens, Measuring and simulation system for machine-tools or production machines.
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  18. Yutkowitz, Stephen J., Method and apparatus for determining calibration options in a motion control system.
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  19. Yang, Seung-Han; Lee, Dong-Mok; Kweon, Sung-Hwan, Method and apparatus for estimating error in multi-axis controlled machine.
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  20. Yutkowitz, Stephen J., Method and apparatus for self-calibrating a motion control system.
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  21. Kainuma, Makoto; Fujita, Masatoshi; Nagata, Ryo; Kido, Takashi, Method and apparatus for supporting design improvement work of mechanical apparatus.
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  22. Yutkowitz, Stephen J., Method and apparatus for tuning compensation parameters in a motion control system associated with a mechanical member.
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  23. Yutkowitz, Stephen J., Method and apparatus for tuning compensation parameters in a motion control system associated with a mechanical member.
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  24. Yutkowitz Stephen J., Method and apparatus for tuning control system parameters.
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  25. Yutkowitz Stephen J., Method and apparatus for tuning motion control system parameters.
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  26. Fabre, Pierre, Method and device for automatic management of an actuator controlled by a servo-valve.
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  27. Hoerr, Friedrich, Method and device for pneumatically driving a turbocharger rotor in a balancing machine.
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  28. Tian, Gang, Method for automatically estimating a friction coefficient in a mechanical system.
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  29. Tian, Gang, Method for automatically estimating inertia in a mechanical system.
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  30. Tian, Gang, Method for automatically estimating inertia, coulomb friction, and viscous friction in a mechanical system.
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  31. Tian, Gang; El-Shaer, Ahmed H., Method for automatically setting responsiveness parameters for motion control systems.
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  32. Mienhardt, Uwe; Lehmann, David, Method for creating numerical control programs.
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  33. Tsai,Ching Hsiung; Wu,Jia Ming, Method for estimating load inertia and a system for controlling motor speed using inverse model.
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  34. Hoppe,Thomas; Seres,Tibor, Method for the control of an electric machine and/or device for the control thereof.
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  35. Frolik, Jeffrey Lee, Method of making a decision on the status of a mechanical system using input and response data acquired in situ.
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  36. Frolik,Jeffrey L., Method of making a decision on the status of a mechanical system using input and response data acquired in situ.
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  37. Ryaboy, Vyacheslav M.; Kasturi, Prakash S.; Nastase, Adrian S., Methods and devices for active vibration damping of an optical structure.
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  38. Caiger,Simon George, Monitoring and controlling of laser operation.
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  39. Tian, Gang, Motion profile generator.
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  50. Gao, Zhiqiang, Scaling and parameterizing a controller.
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  55. Toyama,Souichi; Otsuki,Haruaki; Sakamoto,Atsushi; Seki,Kenta; Okubo,Yaichi, Scanner system.
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  56. Ikai, Yoshiaki, Servo with digital filter to control gain in a frequency band where open loop characteristic is higher than the phase cross-over frequency and lower than resonance frequency.
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  57. Tanaka, Shinji, Servo-parameter adjusting apparatus.
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  58. Huang,Yuhong, System and method for adjusting a PID controller in a limited rotation motor system.
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  59. Huang,Yuhong, System and method for diagnosing a controller in a limited rotation motor system.
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  60. Huang,Yuhong, System and method for diagnosing a controller in a limited rotation motor system.
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  61. Chandhoke, Sundeep, System and method for user controllable PID autotuning and associated graphical user interface.
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  62. Kane, Ajit; Sanglikar, Amit, Torque ripple and noise reduction by avoiding mechanical resonance for a brushless DC machine.
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  63. Wucherer, Klaus; Amrhein, Armin; Hess, Karl; Heber, Tino; Kirste, Steffen, Universal motion control.
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  64. Wucherer, Klaus; Amrhein, Armin; Hess, Karl; Heber, Tino; Kirste, Steffen, Universal motion control.
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  65. Wucherer, Klaus; Birzer, Johannes; Hess, Karl; Heber, Tino; Kirste, Steffen, Universal motion control.
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