IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0234927
(2005-09-26)
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발명자
/ 주소 |
- Martin,Gregory D.
- Boe,Eugene
- Piche,Stephen
- Keeler,James David
- Timmer,Douglas
- Gerules,Mark
- Havener,John P.
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출원인 / 주소 |
- Pavilion Technologies, Inc.
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대리인 / 주소 |
Meyertons Hood Kivlin Kowert &
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인용정보 |
피인용 횟수 :
2 인용 특허 :
42 |
초록
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A method and apparatus for controlling a non-linear mill. A linear controller is provided having a linear gain k that is operable to receive inputs representing measured variables of the plant and predict on an output of the linear controller predicted control values for manipulatible variables that
A method and apparatus for controlling a non-linear mill. A linear controller is provided having a linear gain k that is operable to receive inputs representing measured variables of the plant and predict on an output of the linear controller predicted control values for manipulatible variables that control the plant. A non-linear model of the plant is provided for storing a representation of the plant over a trained region of the operating input space and having a steady-state gain K associated therewith. The gain k of the linear model is adjusted with the gain K of the non-linear model in accordance with a predetermined relationship as the measured variables change the operating region of the input space at which the linear controller is predicting the values for the manipulatible variables. The predicted manipulatible variables are then output after the step of adjusting the gain k.
대표청구항
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We claim: 1. A method for controlling a nonlinear system, comprising: a linear controller receiving inputs representing measured variables of the system, wherein values of the measured variables of the system are in a first operating region, and wherein the linear controller is operable to determin
We claim: 1. A method for controlling a nonlinear system, comprising: a linear controller receiving inputs representing measured variables of the system, wherein values of the measured variables of the system are in a first operating region, and wherein the linear controller is operable to determine predicted control values for manipulable variables that control the system; executing a nonlinear model of the system, wherein the nonlinear model has been trained to represent operation of the system over a specified region of the system's operating space; initiating a change in operation of the system, wherein the change operates to move the values of the measured variables of the system from the first operating region to a second operation region, wherein said initiating comprises modifying the nonlinear model in accordance with the change in operation of the system; adjusting one or more parameters of the linear controller based on an associated one or more parameters of the nonlinear model as the values of the measured variables move; further modifying the one or more parameters of the linear controller in a specified manner as the values of the measured variables move from the first operating region to the second operating region; the linear controller determining predicted control values for the manipulable variables in response to said further modifying; and outputting the predicted control values for the manipulable variables, wherein the predicted control values are useable to control the system. 2. The method of claim 1, wherein the change in operation of the system comprises one or more of: startup of the system; and changing an objective of the system. 3. The method of claim 2, wherein said changing an objective of the system comprises one or more of: changing a product; and changing a product grade. 4. The method of claim 1, wherein the linear controller has a linear gain k, wherein the steady state model has a steady-state gain K, and wherein said adjusting one or more parameters of the linear controller based on an associated one or more parameters of the nonlinear model as the values of the measured variables move comprises: adjusting the linear gain k of the linear controller based on the steady-state gain K of the nonlinear model. 5. The method of claim 4, wherein said adjusting the linear gain k of the linear controller based on the steady-state gain K of the nonlinear model comprises: multiplying the steady-state gain K of the nonlinear model by a factor to generate an adjusted gain value; and setting the linear gain k of the linear controller to the adjusted gain value. 6. The method of claim 1, wherein said adjusting one or more parameters of the linear controller based on an associated one or more parameters of the nonlinear model as the values of the measured variables move comprises: adjusting allowed changes in the predicted control values for the manipulable variables. 7. The method of claim 1, further comprising: controlling the system using the predicted control values for the manipulable variables. 8. The method of claim 7, further comprising: performing said receiving, said executing, said initiating, said adjusting, said further modifying, said determining, said outputting, and said controlling in an iterative manner to operate the system. 9. The method of claim 1, wherein the linear controller is operable to model the dynamics of the system. 10. The method of claim 1, wherein the specified region of the system's operating space over which the nonlinear model has been trained to represent the system is greater than that over which the linear controller is valid. 11. A system for operating a nonlinear system, the system comprising: a linear controller, operable to: receive inputs representing measured variables of the nonlinear system, wherein the measured variables of the nonlinear system are in a first operating region; and determine predicted control values for manipulable variables that control the nonlinear system; a nonlinear model of the nonlinear system, wherein the nonlinear model has been trained to represent operation of the nonlinear system over a specified region of the nonlinear system's operating space; means for initiating a change in operation of the nonlinear system, wherein the change operates to move the measured variables of the nonlinear system from the first operating region to a second operation region; means for modifying the nonlinear model in accordance with the change in operation of the nonlinear system; means for adjusting one or more parameters of the linear controller based on an associated one or more parameters of the nonlinear model as the measured variables move; means for further modifying the one or more parameters of the linear controller in a specified manner as the measured variables move from the first operating region to the second operating region; wherein the linear controller is further operable to determine predicted control values for the manipulable variables in response to said further modifying; and means for outputting the predicted control values for the manipulable variables, wherein the predicted control values are useable to control the nonlinear system. 12. The system of claim 11, wherein the change in operation of the system comprises one or more of: startup of the system; and change of an objective of the system. 13. The system of claim 12, wherein the change to an objective of the system comprises one or more of: a product change; and a product grade change. 14. The system of claim 11, wherein the linear controller has a linear gain k, wherein the steady state model has a steady-state gain K, and wherein the means for adjusting one or more parameters of the linear controller based on an associated one or more parameters of the nonlinear model as the values of the measured variables move comprises: means for adjusting the linear gain k of the linear controller based on the steady-state gain K of the nonlinear model. 15. The system of claim 14, wherein the means for adjusting the linear gain k of the linear controller based on the steady-state gain K of the nonlinear model comprises: means for multiplying the steady-state gain K of the nonlinear model by a factor to generate an adjusted gain value; and means for setting the linear gain k of the linear controller to the adjusted gain value. 16. The system of claim 11, wherein the means for adjusting one or more parameters of the linear controller based on an associated one or more parameters of the nonlinear model as the values of the measured variables move comprises: means for adjusting allowed changes in the predicted control values for the manipulable variables. 17. The system of claim 11, further comprising: means for controlling the system using the predicted control values for the manipulable variables. 18. The system of claim 17, further comprising: means for performing said receiving, said executing, said initiating, said adjusting, said further modifying, said determining, said outputting, and said controlling in an iterative manner to operate the system. 19. The system of claim 11, wherein the linear controller is operable to model the dynamics of the system. 20. The system of claim 11, wherein the specified region of the system's operating space over which the nonlinear model has been trained to represent the system is greater than that over which the linear controller is valid.
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