$\require{mediawiki-texvc}$

연합인증

연합인증 가입 기관의 연구자들은 소속기관의 인증정보(ID와 암호)를 이용해 다른 대학, 연구기관, 서비스 공급자의 다양한 온라인 자원과 연구 데이터를 이용할 수 있습니다.

이는 여행자가 자국에서 발행 받은 여권으로 세계 각국을 자유롭게 여행할 수 있는 것과 같습니다.

연합인증으로 이용이 가능한 서비스는 NTIS, DataON, Edison, Kafe, Webinar 등이 있습니다.

한번의 인증절차만으로 연합인증 가입 서비스에 추가 로그인 없이 이용이 가능합니다.

다만, 연합인증을 위해서는 최초 1회만 인증 절차가 필요합니다. (회원이 아닐 경우 회원 가입이 필요합니다.)

연합인증 절차는 다음과 같습니다.

최초이용시에는
ScienceON에 로그인 → 연합인증 서비스 접속 → 로그인 (본인 확인 또는 회원가입) → 서비스 이용

그 이후에는
ScienceON 로그인 → 연합인증 서비스 접속 → 서비스 이용

연합인증을 활용하시면 KISTI가 제공하는 다양한 서비스를 편리하게 이용하실 수 있습니다.

Self-tuning controller that extracts process model characteristics

IPC분류정보
국가/구분 United States(US) Patent 등록
국제특허분류(IPC7판)
  • G05B-013/04
출원번호 US-0096600 (1993-07-22)
발명자 / 주소
  • Hansen Peter D. (Wellesley Hills MA)
출원인 / 주소
  • The Foxboro Company (Foxboro MA 02)
인용정보 피인용 횟수 : 132  인용 특허 : 0

초록

An apparatus and method for process control that extracts information from a process for developing a model of the process that is used to design system control. The apparatus includes means for selecting a process model form that has two or more selectable parameters. The apparatus also includes me

대표청구항

Process control apparatus for attaining a selected closed-loop response of a control system, said apparatus comprising an outer-control loop having monitoring means, coupled to a controlled variable signal representative of a first characteristic of a process having an open-loop response, and to an

이 특허를 인용한 특허 (132)

  1. Britt, Tena K., Adaptive PID control system for industrial turbines.
  2. Hovakimyan, Naira; Calise, Anthony J; Yang, Bong-Jun, Adaptive output feedback apparatuses and methods capable of controlling a non-minimum phase system.
  3. Hovakimyan,Naira; Calise,C. Anthony; Yang,Bong Jun, Adaptive output feedback apparatuses and methods capable of controlling a non-minimum phase system.
  4. Alsaleem, Fadi; Rao, Arvind, Adaptive predictive functional controller.
  5. Smirnov, Alexei V., Adaptive response time closed loop control algorithm.
  6. Junichi Kiji JP, Adjustment rule generating and control method and apparatus.
  7. Denison, David R.; Lewis, Marty James; Wojsznis, Peter; Mehta, Ashish, Analytical server integrated in a process control network.
  8. Bush, Stephen Francis; Hershey, John Erik; Vosburgh, Kirby Gannett; Osborn, Brock Estel, Apparatus and method for analyzing brittleness of a system.
  9. Lee, Hyoung-Ki; Choi, Ki-Wan; Park, Ji-Young; Bang, Seok-Won, Apparatus and method for calculating position of robot.
  10. Tanaka Hirohiko,JPX ; Nawata Takeshi,JPX, Apparatus and method for evaluating operability of appliances and an apparatus for improving the operability of the appl.
  11. Gahinet, Pascal; Chen, Rong; Eryilmaz, Bora, Automated PID controller design.
  12. Gahinet, Pascal; Chen, Rong; Eryilmaz, Bora; Singh, Baljeet, Automated PID controller design, using parameters that satisfy a merit function.
  13. Sturrock, David Thayer; Drake, Glenn Richardson; Crooks, Cory R; Takus, A David; Glavach, Mark Anson; O'Neill Kolt, Genevieve; Palmieri, Jr., Frank Anthony, Automated recommendations from simulation.
  14. Gahinet, Pascal, Automatic H-infinity optimization for multivariable control systems.
  15. Ito, Takamichi; Fujita, Jun, Automatic speed loop gain adjustment method and apparatus for a feedback control system.
  16. Lenz Gary A. ; Dumitru Aurelian, Card laminator with regulatory control.
  17. Teng Dan ; Wang Shay-Ping T., Cascade tuning controller and method of use therefor.
  18. Treiber, Steven; McLeod, Ronald; Kalafatis, Alex; Ramanathan, Sundaram; Lingard, Simon; Chen, Chau-Chyun, Computer method and apparatus for optimized controller in a non-linear process.
  19. Fuxman, Adrian Matias; Pachner, Daniel, Condition-based powertrain control system.
  20. Stewart, Greg; Borrelli, Francesco; Pekar, Jaroslav, Configurable automotive controller.
  21. Yasui, Yuji, Control apparatus.
  22. Sato Mikio,JPX, Control apparatus, a stage apparatus and a hard disk servo writer apparatus including a robust stabilizing compensator.
  23. Hans-Peter Feustel DE, Control circuit for regulating at least two controlled variables.
  24. Yasui, Yuji, Control parameters for searching.
  25. Stewart, Greg; Pekar, Jaroslav; Pachner, Daniel, Coordinated engine and emissions control system.
  26. Woergoetter, Florentin; Porr, Bernd, Correction signal capable of diminishing a future change to an output signal.
  27. Karthik, Muralidhar; Vlantis, George A., Determining a response of a rapidly varying OFDM communication channel using an observation scalar.
  28. Karthik, Muralidhar; Vlantis, George A., Determining responses of rapidly varying MIMO-OFDM communication channels using observation scalars.
  29. Gudaz, John A.; Zhang, Yan; Wojsznis, Wilhelm K., Determining tuning parameters for a process controller from a robustness map.
  30. Brown, Stephen J., Diabetes care management system.
  31. Brown,Stephen J., Disease simulation system and method.
  32. Sturrock, David Thayer; Drake, Glenn Richardson; Crooks, Cory R.; Takus, A. David; Glavach, Mark Anson; Kolt, Genevieve O'Neill; Palmieri, Jr., Frank Anthony, Distributed simulation and synchronization.
  33. Pachner, Daniel; Pekar, Jaroslav, Engine and aftertreatment optimization system.
  34. Stewart, Gregory E.; Rhodes, Michael L., Engine controller.
  35. Sturrock, David Thayer; Drake, Glenn Richardson; Crooks, Cory R; Takus, A David; Glavach, Mark Anson; O'Neill Kolt, Genevieve; Palmieri, Jr., Frank Anthony, Enhanced simulation models for automation.
  36. Lee, Chien-Yi; Hsieh, Hung-Chieh; Chen, Cheng-Yu; Nien, Hao-Wei; Lin, Yi-Ying, Goal-oriented numerical control automatic tuning system and method.
  37. Santillo, Mario Anthony; Magner, Stephen William; Uhrich, Michael James; Jankovic, Mrdjan J., Identification and rejection of asymmetric faults.
  38. Pachner, Daniel, Identification approach for internal combustion engine mean value models.
  39. Hansen,Peter Daniel; Goksel,Bulent, Intelligent valve flow linearization.
  40. Hansen,Peter Daniel; Goksel,Bulent, Intelligent valve flow linearization.
  41. Hansen Peter Daniel ; Goksel Bulent, Intelligent valve positioner tuning.
  42. Vouzis, Panagiotis; Bleris, Leonidas; Arnold, Mark G.; Kothare, Mayuresh V., Iterative matrix processor based implementation of real-time model predictive control.
  43. Junk, Kenneth W.; Latwesen, Annette L., Lead-lag input filter arrangement for electro-pneumatic control loops.
  44. Petersson, Mikael; H?gglund, Tore; Årz?n, Karl-Erik, Method and a system for evaluating whether a signal is suitable for feed-forward control.
  45. Bögl, Andreas; Pomberger, Gustav; Schrefl, Michael; Weber, Norbert, Method and an apparatus for automatically providing a common modelling pattern.
  46. Holowko Paul L., Method and apparatus for adaptive control of a system or device.
  47. Gough, Jr., William Albert Gordon; Kovac, Sava; Huzmezan, Mihai, Method and apparatus for adaptive control of marginally stable systems.
  48. Quak, Beng Wee; Lim, Bernard Tuang Liang; Ngwe, Myint; Teo, Song Wee; Ko, Beng Theam, Method and apparatus for adaptive tuning bias current for magnetoresistive head.
  49. Rose Ralph E., Method and apparatus for automatically tuning the parameters of a feedback control system.
  50. Wise William L., Method and apparatus for compensation for operator in a closed-loop control system.
  51. Mehta, Ashish; Wojsznis, Peter; Lewis, Marty J.; Jundt, Larry O.; Pettus, Nathan W., Method and apparatus for intelligent control and monitoring in a process control system.
  52. Hoche, Randolf, Method and apparatus for positioning a movable element using a galvanometer actuator and pre-filtering.
  53. Hansen Peter D. (Wellesley Hills MA) Badavas Paul C. (Southboro MA), Method and apparatus for providing multivariable nonlinear control.
  54. Pfeiffer Bernd-Markus,DEX, Method and device for controlling a self-regulating, delayed process.
  55. Adavi, Visweswara Prasad; Balasubramaniam, Raja, Method and system for offline code validation.
  56. Kihas, Dejan, Method and system for updating tuning parameters of a controller.
  57. Kihas, Dejan, Method and system for updating tuning parameters of a controller.
  58. Bernd-Markus Pfeiffer DE, Method for controlling a time-lagged process with compensation, and a controlling device for carrying out said method.
  59. Paanasalo, Jari, Method for determination of roll density.
  60. Ricardo Telichevesky ; Kenneth S. Kundert ; Jacob K. White, Method for determining the steady state behavior of a circuit using an iterative technique.
  61. Telichevesky Ricardo ; Kundert Kenneth S. ; White Jacob K., Method for determining the steady state behavior of a circuit using an iterative technique.
  62. Telichevesky, Ricardo; Kundert, Kenneth S.; White, Jacob K., Method for determining the steady state behavior of a circuit using an iterative technique.
  63. Mathia,Michel; Very,Vincent, Method for optimizing control parameters.
  64. Grunder Roland,CHX, Method for optimizing the production output of an apparatus processing flat items.
  65. Mugler Dale H. ; Wu Yan, Method for predicting future function values utilizing derivative samples.
  66. Mathur Anoop ; Samad Tariq, Method for process system identification using neural network.
  67. Hinsberg ; III William Dinan ; Houle Frances Anne, Method for stochastic and deterministic timebase control in stochastic simulations.
  68. Filev, Dimitar P.; Prokhorov, Danil Valentinovich; Feldkamp, Lee Albert; Lixing, Ma; Larsson, Tomas, Method of adaptively controlling paint system.
  69. Dubay, Rickey; Hernandez, Jose Mauricio; Abu-Ayyad, Ma'moun, Method of multi-dimensional nonlinear control.
  70. Perez, Michael Anthony, Method of programming I/O adapter settings for optimal performance.
  71. Pyotsia, Jouni; Kreivi, Mika; Heikkinen, Pasi, Method of tuning a process control loop in an industrial process.
  72. Zheng,Qinsheng; Harmse,Magiel J.; Rasmussen,Kent; McIntyre,Blaine, Methods and articles for detecting, verifying, and repairing collinearity in a model or subsets of a model.
  73. Cummings, Daniel Louis, Methods and systems for energy balance control for feed flow and feed temperature disturbances.
  74. Sayyar-Rodsari, Bijan, Model Predictive control system and method for reduction of steady state error.
  75. Pflugl, Horst; Riel, Andreas; Gschweitl, Kurt, Model based on-line optimization method.
  76. Stephenson, Brian Kent; Rueda-Velandia, Lina M., Model predictive control with variable trajectory sharing.
  77. Stephenson, Brian Kent; Velandia, Lina M. Rueda, Model predictive control with variable trajectory sharing.
  78. Cheng, George Shu-Xing, Model-free adaptive control of quality variables.
  79. Cheng,George Shu Xing, Model-free adaptive control of quality variables.
  80. Cheng George Shu-Xing, Model-free adaptive process control.
  81. Tondolo, Flavio; Valoti, Roberto, Modified proportional integral derivative controller.
  82. Tsutsui,Kazuhiko, Motor control device.
  83. Ekblad Mark K. ; Elia Curtis F., Multi-input multi-output generic non-interacting controller.
  84. Gagne, Ronald A., Multi-variable matrix process control.
  85. Wong, Hee, Multiplexed proportional-integral-derivative filter architecture (Mux-PID) for control-loop applications.
  86. Zheng, Qingsheng Quinn; Keenan, Michael R.; Harmse, Magiel J., Online control calculation for models containing near colinearity and uncertainty.
  87. Sayyarrodsari, Bijan; Liano, Kadir; Smith, Alexander B., Online integration of model-based optimization and model-less control.
  88. Crandall, John G.; Chatfield, Glen F., Optimization expert system.
  89. Chatfield,Glen F.; Crandall,John G., Optimization of a design.
  90. Rutherford, Mark L., Partitioned control structure.
  91. Rutherford, Mark L., Partitioned control system and method.
  92. Rutherford,Mark L., Partitioned control system and method.
  93. Tanaka,Masato; Kato,Seiji, Pid parameter adjustment device.
  94. Tulpule Sharayu, Prediction of chiller compressor motor overheating.
  95. Tan, Kok Kiong; Lee, Tong Heng; Huang, Sunan; Wang, Qing Guo, Predictive and self-tuning PI control apparatus for expanded process control applications.
  96. Caldwell, John M.; Blevins, Terrence L.; Wojsznis, Peter; Wojsznis, Wilhelm K., Process model identification in a process control system.
  97. Sepehri Nariman (Winnipeg CAX) Corbet Todd A. (Nanaimo CAX) Lawrence Peter D. (Vancouver CAX), Proportional derivitive control system with low speed offset compensation.
  98. Higuchi, Kouji; Nakano, Kazushi; Kajikawa, Tatsuyoshi; Takegami, Eiji; Watanabe, Kazushi; Tomioka, Satoshi, Robust digital controller and its designing device.
  99. Cheng, George Shu-Xing, Robust model-free adaptive control.
  100. Shan, XiMin; Huang, Xinghui, Selecting servo controller based on predicted position error signal spectrum.
  101. Kelly, Anthony L., Self compensating closed loop adaptive control system.
  102. Blevins, Terrence L.; Wojsznis, Wilhelm K.; McMillan, Gregory K.; Wojsznis, Peter, Self-diagnostic process control loop for a process plant.
  103. Blevins, Terrence L.; Wojsznis, Wilhelm K.; McMillan, Gregory K.; Wojsznis, Peter, Self-diagnostic process control loop for a process plant.
  104. Takeishi Hiroaki (Utsunomiya JPX), Servo system adjusting method and servo control system.
  105. Sturrock, David T.; Morse, Richard A., Simulation controls for model variability and randomness.
  106. Sturrock, David T.; Morse, Richard A., Simulation controls for model variablity and randomness.
  107. Zhang, Da; Li, Hui; Collins, Emmanuel G., Stochastic anti-windup proportional-integral (PI) controller.
  108. Goldman,Arnold J.; Fisher,Joseph; Hartman,Jehuda; Sarel,Shlomo, Strategic method for process control.
  109. Calise, Anthony J.; Kim, Byoung-Soo; Corban, J. Eric, System and method for adaptive control of uncertain nonlinear processes.
  110. Calise,Anthony J.; Kim,Byoung Soo, System and method for adaptive control of uncertain nonlinear processes.
  111. Corban,J. Eric, System and method for adaptive control of uncertain nonlinear processes.
  112. Dabak, Anand Ganesh; McDonald, Brent, System and method for automatically tuning a voltage converter.
  113. Salsbury,Timothy I., System and method for characterizing a system.
  114. Goldsmith, Abraham; Di Cairano, Stefano, System and method for explicit model predictive control.
  115. Das,Indraneel; Rey,Gonzalo, System and method for exploiting a good starting guess for binding constraints in quadratic programming with an infeasible and inconsistent starting guess for the solution.
  116. Jackson, Warren B.; Fromherz, Markus P. J., System and method for implementing real-time applications based on stochastic compute time algorithms.
  117. Burdorf,James; Pierrat,Christophe, System and method for process matching.
  118. James Burdorf ; Christophe Pierrat, System and method for process matching.
  119. Chandhoke, Sundeep, System and method for user controllable PID autotuning and associated graphical user interface.
  120. Das,Indraneel, System and method of accelerated active set search for quadratic programming in real-time model predictive control.
  121. Nishiyama,Kiyoshi, System estimation method and program, recording medium, and system estimation device.
  122. Nishiyama,Kiyoshi, System identification method.
  123. Nishiyama, Kiyoshi, System identification method and program, storage medium, and system identification device.
  124. Kihas, Dejan, Technique and tool for efficient testing of controllers in development.
  125. Chu, Danlei; Forbes, Michael; Backstrom, Johan U., Technique for converting a model predictive control (MPC) system into an explicit two-degrees of freedom (2DOF) control system.
  126. Smith Jay L., Trainable, state-sampled, network controller.
  127. Duzy, Eyal, Tuning method for a processing machine.
  128. Thiele, Dirk, Using autocorrelation to detect model mismatch in a process controller.
  129. Pekar, Jaroslav; Stewart, Gregory E., Using model predictive control to optimize variable trajectories and system control.
  130. Markham, Thomas R., Vehicle security module system.
  131. Bruzzone,Stephen P.; Shanafelt,Robert E., Wideband interference cancellation using DSP algorithms.
  132. Loparo Kenneth A. ; Khrapunovich Gregory ; Kyr Douglas E. ; Scheib Thomas J., Windup and noise protection of digital controllers in a layered control.
섹션별 컨텐츠 바로가기

AI-Helper ※ AI-Helper는 오픈소스 모델을 사용합니다.

AI-Helper 아이콘
AI-Helper
안녕하세요, AI-Helper입니다. 좌측 "선택된 텍스트"에서 텍스트를 선택하여 요약, 번역, 용어설명을 실행하세요.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.

선택된 텍스트