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Neurocontrolled adaptive process control system

IPC분류정보
국가/구분 United States(US) Patent 등록
국제특허분류(IPC7판)
  • G21C-007/36
출원번호 US-0605585 (1990-10-30)
발명자 / 주소
  • Bozich Daniel J. (San Diego CA) MacKay H. Bruce (San Diego CA) Eggert Jay A. (San Diego CA) Muenchau Ernest E. (Vista CA)
출원인 / 주소
  • Science Applications International Corporation (San Diego CA 02)
인용정보 피인용 횟수 : 97  인용 특허 : 0

초록

An adaptive process control system selectively controls vibrations in a given medium in real time. Unwanted vibrations present at a point being monitored in a given medium are sensed, and the system generates an appropriate offsetting vibration that is applied to the medium at a convenient location,

대표청구항

A vibration control system comprising: a medium through which vibrations may be transmitted; sensing means for sensing vibrations at a plurality of monitoring locations within said medium; transducer means for applying a plurality of forced vibrations to said medium in response to a respective plura

이 특허를 인용한 특허 (97)

  1. Lo, James T.; Yu, Lei, Active acoustic and structural vibration control without online controller adjustment and path modeling.
  2. Calise, Anthony J.; Hovakimyan, Naira; Idan, Moshe, Adaptive control system having direct output feedback and related apparatuses and methods.
  3. Calise,Anthony J.; Hovakimyan,Naira; Idan,Moshe, Adaptive control system having direct output feedback and related apparatuses and methods.
  4. Johnson, Eric Norman; Calise, Anthony J., Adaptive control system having hedge unit and related apparatus and methods.
  5. Johnson,Eric Norman; Calise,Anthony J., Adaptive control system having hedge unit and related apparatus and methods.
  6. Hovakimyan, Naira; Calise, Anthony J; Yang, Bong-Jun, Adaptive output feedback apparatuses and methods capable of controlling a non-minimum phase system.
  7. Hovakimyan,Naira; Calise,C. Anthony; Yang,Bong Jun, Adaptive output feedback apparatuses and methods capable of controlling a non-minimum phase system.
  8. Langley Andrew J. (Welwyn GB3), Adaptive resonator vibration control system.
  9. Jongsma,Jonathon Michael; Huisenga,Garrie David, Analog-to-digital converter with range error detection.
  10. Pannese, Patrick D., Applications of neural networks.
  11. Eryurek, Evren; Warrior, Jogesh, Auto correcting temperature transmitter with resistance based sensor.
  12. Schumacher, Mark S.; Eryurek, Evren, Automatic field device service adviser.
  13. Evren Eryurek, Communication technique for field devices in industrial processes.
  14. Francone Frank D. ; Nordin Peter,SEX ; Banzhaf Wolfgang,DEX, Computer implemented machine learning and control system.
  15. Eryurek, Evren; Kavaklioglu, Kadir, Control system using process model.
  16. Longsdorf, Randy J.; Nelson, Scott D.; Davis, Dale S.; Nelson, Richard L.; Johnson, Amy K.; Brown, Gregory C., Dedicated process diagnostic device.
  17. Rud, Jason H., Degrading sensor detection implemented within a transmitter.
  18. Eryurek Evren ; Warrior Jogesh, Device in a process system for detecting events.
  19. Evren Eryurek ; Jogesh Warrior, Device in a process system for detecting events.
  20. Eryurek, Evren; Warrior, Jogesh, Device in a process system for determining statistical parameter.
  21. Eryurek Evren, Device in a process system for validating a control signal from a field device.
  22. Schleiss, Trevor D.; Nixon, Mark; Blevins, Terrence Lynn; Brase, Todd B.; Ganesamoorthi, Suresh, Diagnostic expert in a process control system.
  23. Eryurek, Evren; Esboldt, Steven R.; Rome, Gregory H., Diagnostics for resistive elements of process devices.
  24. Schleiss Trevor D. ; Wojsznis Wilhelm K. ; Blevins Terrence L., Diagnostics in a process control system.
  25. Schleiss, Trevor D.; Wojsznis, Wilhelm K.; Blevins, Terrence L., Diagnostics in a process control system.
  26. Blevins, Terrence L.; Nixon, Mark J.; Wojsznis, Wilhelm K., Diagnostics in a process control system which uses multi-variable control techniques.
  27. Brown, Gregory C.; Schumacher, Mark S., Diagnostics of impulse piping in an industrial process.
  28. Coursolle, Thomas P.; Wehrs, David L., Electrode leakage diagnostics in a magnetic flow meter.
  29. Rome, Gregory H.; Eryurek, Evren; Kavaklioglu, Kadir, Electronics board life prediction of microprocessor-based transmitters.
  30. William R. Kirkpatrick ; Eric D. Rotvold, Error compensation for a process fluid temperature transmitter.
  31. Huisenga, Garrie D.; Lewis, Richard A.; Lattimer, Donald R., Field device for digital process control loop diagnostics.
  32. Eryurek, Evren; Kavaklioglu, Kadir, Flow diagnostic system.
  33. Wehrs, David L.; Eryurek, Evren, Flow measurement diagnostics.
  34. Eryurek, Evren; Kavaklioglu, Kadir, Flow measurement with diagnostics.
  35. Borgeson, Dale W.; DelaCruz, Moises A., Hand held diagnostic and communication device with automatic bus detection.
  36. Eryurek, Evren; Gao, Rong; Tsoukalas, Lefteri H., High accuracy signal processing for magnetic flowmeter.
  37. Coleman Ronald B. ; Curtis Alan R. D. ; Remington Paul J., Impedance controller.
  38. Elke, Anthony Michael, Industrial process temperature transmitter with sensor stress diagnostics.
  39. Ulyanov, Sergei V.; Panfilov, Sergei; Kurawaki, Ichiro; Hagiwira, Takahide, Intelligent mechatronic control suspension system based on soft computing.
  40. Fujii,Shigeru; Watanabe,Hitoshi; Panfilov,Sergey A.; Takahashi,Kazuki; Ulyanov,Sergey V., Intelligent robust control system for motorcycle using soft computing optimizer.
  41. Evren Eryurek, Low power two-wire self validating temperature transmitter.
  42. Schulz, Robert K., Magnetic flow meter with reference electrode.
  43. Graber, William F.; Foss, Scot R.; Schulz, Robert K., Magnetic flowmeter with verification.
  44. Holmquist, Eric B., Measuring rotor imbalance via blade clearance sensors.
  45. Cooper,David L., Method and apparatus for fractal computation.
  46. Discenzo Frederick M., Method and system for synthesizing vibration data.
  47. Yesildirek A. ; Lewis F. L., Method for feedback linearization of neural networks and neural network incorporating same.
  48. Vian,John L.; Travis,Matt H., Methods and systems for analyzing engine unbalance conditions.
  49. Vian,John L.; Travis,Matt H., Methods and systems for analyzing engine unbalance conditions.
  50. Vian,John L.; Travis,Matt H., Methods and systems for analyzing engine unbalance conditions.
  51. Pannese, Patrick D.; Kavathekar, Vinaya; van der Meulen, Peter, Methods and systems for controlling a semiconductor fabrication process.
  52. Pannese, Patrick D.; Kavathekar, Vinaya; van der Meulen, Peter, Methods and systems for controlling a semiconductor fabrication process.
  53. Pannese, Patrick D.; Kavathekar, Vinaya; van der Meulen, Peter, Methods and systems for controlling a semiconductor fabrication process.
  54. Pannese, Patrick D.; Kavathekar, Vinaya; van der Meulen, Peter, Methods and systems for controlling a semiconductor fabrication process.
  55. Pannese, Patrick D.; Kavathekar, Vinaya; van der Meulen, Peter, Methods and systems for controlling a semiconductor fabrication process.
  56. Pannese, Patrick D.; Kavathekar, Vinaya; van der Meulen, Peter, Methods and systems for controlling a semiconductor fabrication process.
  57. Cheng, George Shu-Xing, Model-free adaptive control for industrial processes.
  58. Cheng, George Shu-Xing; Mulkey, Steven L.; Wang, Qiang, Model-free adaptive control of advanced power plants.
  59. Cheng George Shu-Xing, Model-free adaptive process control.
  60. Jannarone Robert J., Multi-kernel neural network concurrent learning, monitoring, and forecasting system.
  61. Jannarone, Robert J., Multi-kernel neural network concurrent learning, monitoring, and forecasting system.
  62. Russell, III, Alden C.; Harris, Stuart A.; Peluso, Marcos; Borgeson, Dale W., Multi-protocol field device interface with automatic bus detection.
  63. Antonios N. Kotoulas ; Charles Berezin ; Michael S. Torok ; Peter F. Lorber, Neural net controller for noise and vibration reduction.
  64. Kotoulas, Antonios N.; Berezin, Charles; Torok, Michael S.; Lorber, Peter F., Neural net controller for noise and vibration reduction.
  65. Harrison Gregory A., Neural network based analysis system for vibration analysis and condition monitoring.
  66. Eryurek, Evren; Lenz, Gary A.; Kavaklioglu, Kadir, Prediction of error magnitude in a pressure transmitter.
  67. Eryurek,Evren; Kavaklioglu,Kadir, Pressure transmitter with diagnostics.
  68. Lenz, Gary A., Printer with a process diagnostics system for detecting events.
  69. Eryurek, Evren; Kavaklioglu, Kadir; Esboldt, Steven R., Process device diagnostics using process variable sensor signal.
  70. Eryurek,Evren; Kavaklioglu,Kadir; Esboldt,Steven R., Process device diagnostics using process variable sensor signal.
  71. Huisenga,Garrie D.; Longsdorf,Randy J., Process device with quiescent current diagnostics.
  72. Longsdorf, Randy J.; Blumeyer, Chad C., Process device with vibration based diagnostics.
  73. Brown,Gregory C.; Peluso,Marcos; Karschnia,Robert J., Process diagnostics.
  74. Rud, Jason Harold; Engelstad, Loren Michael, Process variable measurement noise diagnostic.
  75. Rud, Jason H., Process variable transmitter with EMF detection and correction.
  76. Sittler, Fred C.; Hedtke, Robert C., Process variable transmitter with acceleration sensor.
  77. Evren Eryurek ; Jogesh Warrior ; Andrew T. Patten, Resistance based process control device diagnostics.
  78. Evren Eryurek ; Steven R. Esboldt ; Gregory H. Rome, Resistance based process control device diagnostics.
  79. Eryurek, Evren; Esboldt, Steven R., Resistive element diagnostics for process devices.
  80. Eryurek,Evren; Kavaklioglu,Kadir, Root cause diagnostics.
  81. Miller, John P.; Eryurek, Evren, Rule set for root cause diagnostics.
  82. van der Meulen, Peter, Semiconductor manufacturing systems.
  83. Eryurek Evren, Signal processing technique which separates signal components in a sensor for sensor diagnostics.
  84. Panfilov,Sergey A.; Litvintseva,Ludmila; Ulyanov,Sergey V.; Ulyanov,Viktor S.; Takahashi,Kazuki, Soft computing optimizer of intelligent control system structures.
  85. Wehrs, David L., Spectral diagnostics in a magnetic flow meter.
  86. Calise Anthony J. ; Kim Byoung-Soo,KRX, System and method for adaptive control of uncertain nonlinear processes.
  87. Calise,Anthony J.; Kim,Byoung Soo, System and method for adaptive control of uncertain nonlinear processes.
  88. Corban,J. Eric, System and method for adaptive control of uncertain nonlinear processes.
  89. Sergei V. Ulyanov IT, System for intelligent control based on soft computing.
  90. Ulyanov, Sergei V., System for intelligent control based on soft computing.
  91. Eryurek Evren ; Lenz Gary, Temperature transmitter with on-line calibration using johnson noise.
  92. Rose Ralph E., Training a neural network using differential input.
  93. Eryurek Evren ; Warrior Jogesh ; Esboldt Steven R., Transmitter with software for determining when to initiate diagnostics.
  94. Eryurek, Evren; Warrior, Jogesh; Esboldt, Steven R., Transmitter with software for determining when to initiate diagnostics.
  95. Jacques,Robert, Tuning control parameters of vibration reduction and motion control systems for fabrication equipment and robotic systems.
  96. Kirkpatrick, William R.; Goetzinger, Charles E., Two-wire fluid temperature transmitter with thermocouple diagnostics.
  97. Huisenga,Garrie D.; Longsdorf,Randy J.; Lattimer,Donald R., Two-wire process control loop diagnostics.
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