Systems and methods for reducing an effect of a disturbance
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G01R-029/26
G01R-029/00
출원번호
US-0549320
(2006-10-13)
등록번호
US-7421354
(2008-09-02)
발명자
/ 주소
Brunell,Brent Jerome
출원인 / 주소
General Electric Company
대리인 / 주소
Asmus,Scott J.
인용정보
피인용 횟수 :
10인용 특허 :
10
초록▼
A method for reducing an effect of a disturbance signal on an output of a dynamic system. The method includes generating an increment of the disturbance signal, and modifying an incremental signal input to the dynamic system based on the increment of the disturbance signal, thereby reducing the effe
A method for reducing an effect of a disturbance signal on an output of a dynamic system. The method includes generating an increment of the disturbance signal, and modifying an incremental signal input to the dynamic system based on the increment of the disturbance signal, thereby reducing the effect of the disturbance signal. According to one embodiment the method includes generating an increment by calculating a difference between two values sampled during consecutive sampling periods, wherein a first one of the two values is sampled during a first one of the consecutive sampling periods, and wherein a second one of the two values is sampled during a second one of the consecutive sampling periods, and wherein the two values are disturbances.
대표청구항▼
What is claimed is: 1. A method for reducing an effect of a disturbance signal on an output of a dynamic system, said method comprising: generating an increment of the disturbance signal; and modifying an incremental signal input to the dynamic system based on the increment of the disturbance signa
What is claimed is: 1. A method for reducing an effect of a disturbance signal on an output of a dynamic system, said method comprising: generating an increment of the disturbance signal; and modifying an incremental signal input to the dynamic system based on the increment of the disturbance signal, thereby reducing the effect of the disturbance signal on the output of the dynamic system and; wherein generating an increment comprises calculating a difference between two values sampled during consecutive sampling periods, wherein a first one of the two values is sampled during a first one of the consecutive sampling periods, and wherein a second one of the two values is sampled during a second one of the consecutive sampling periods, and wherein the two values are disturbances. 2. A method in accordance with claim 1, wherein said modifying the incremental signal input to the dynamic system comprises changing the incremental signal input to the dynamic system based on a relative degree of the dynamic system, wherein the relative degree is greater than or equal to zero. 3. A method in accordance with claim 1, wherein the disturbance signal comprises a signal that is configured not to affect the output of the dynamic system. 4. A method in accordance with claim 1 wherein the dynamic system is a multiple-input-multiple-output system. 5. A method in accordance with claim 1 further comprising estimating an additional signal generated within a sampling period of the disturbance signal based on the disturbance signal, wherein the additional signal represents a disturbance affecting the dynamic system. 6. A method in accordance with claim 1, wherein the first and second ones of the two values are input to the dynamic system. 7. A processor-based method that facilitates reducing an effect of a disturbance signal on an output of a dynamic system, said processor-based method comprising: generating an increment of the disturbance signal; and modifying an incremental signal input to the dynamic system based on the increment of the disturbance signal, thereby attenuating the effect of the disturbance signal, and wherein said incremental signal input to the dynamic system is performed by calculating u_k=u_k-1+K--1˜v_K-- 3F_k+K_d˜d_k, wherein u_k is a signal input to the dynamic system, u_K-1 is a signal input to the dynamic system one sampling period before u_k is input to the dynamic system, K--1, K--3, and K_d are matrices, ˜v_k is an incremental signal output by a controller to the processor, ˜d_k is an incremental disturbance input to the dynamic system, and F_k is a function of a plurality of values, at a reference time, of a disturbance input to the dynamic system, a state of a portion of the dynamic system, and a signal input to the dynamic system. 8. A processor in accordance with claim 7, wherein said processor is further configured to generate the increment as a difference between two values sampled during consecutive sampling periods, wherein a first one of the two values is sampled during a first one of the consecutive sampling periods, and wherein a second one of the two values is sampled during a second one of the consecutive sampling periods, and wherein the first and second ones of the two values are disturbances. 9. A processor in accordance with claim 7, wherein said processor modifies the incremental signal input to the dynamic system by changing the incremental signal input to the dynamic system based on a relative degree of the dynamic system, wherein the relative degree is greater than or equal to zero. 10. A processor in accordance with claim 7, wherein the disturbance signal comprises a signal that is configured not to affect the output of the dynamic system. 11. A processor in accordance with claim 7, wherein the dynamic system includes one of a single-input-single-output system and a multiple-input-multiple-output system. 12. A processor in accordance with claim 7, wherein said processor configured to estimate an additional signal generated within a sampling period of the disturbance signal based on the disturbance signal, wherein the additional signal represents a disturbance affecting the dynamic system. 13. A processor in accordance with claim 7, wherein the incremental signal input to the dynamic system comprises a difference between two values sampled during consecutive sampling periods, wherein a first one of the two values is sampled during a first one of the consecutive sampling periods, wherein a second one of the two values is sampled during a second one of the consecutive sampling periods, and wherein the first and second ones of the two values are input to the dynamic system. 14. A method for attenuating an impact of a disturbance on a dynamic system, comprising: generating an increment of a disturbance signal; and modifying an incremental signal input to the dynamic system based on the increment of the disturbance signal, thereby attenuating the effect of the disturbance signal and adjusting an output of said dyanmic system by calculating u_k=u_k-1+K--1˜v_k+K-- 3F_k+K_d˜d_k, wherein u_k is a signal output by a controller to the dynamic system for attenuating the disturbance, u_K-1 is a signal output by the controller to the dynamic system one sampling period before u_k is input to the dynamic system, K--1, K--3, and K_d are matrices, ˜v_k is an incremental signal output by a processor to the controller, ˜d_k is an incremental disturbance input to the dynamic system, and F_k is a function of a plurality of values, at a reference time, of a disturbance input to the dynamic system, a state of a portion of the dynamic system, and a signal input to the dynamic system; wherein said attenuating is across a range of frequencies ranging from and including 0 Hz to the a bandwidth of the dynamic system. 15. A method in accordance with claim 14, wherein said attenuating the impact of the disturbance comprises deriving {dot over (x)}t=ƒ(xt,ut,dt), yt=h(xt,ut,dt), and yt=h( xt,ūt, dt), wherein ƒ and h are nonlinear functions, xt is a state of a portion of the dynamic system, t is continuous time, {dot over (x)}t is a derivative, with respect to the time t, of the state xt, ut is a signal output by a controller to the dynamic system, dt is the disturbance input to the dynamic system, and each of Ac, Bcu, and Bcd are a matrix, {tilde over (x)}t is an increment to a particular value xt of the state at a reference time, ũt is an increment to a particular value xt of ut at the reference time, and {tilde over (d)}t is an increment to a particular value of the disturbance dt at the reference time. 16. A method in accordance with claim 14, wherein said Kd is computed at least one of before and during energization of the dynamic system. 17. A method in accordance with claim 14, wherein said uk is changed at the same time the disturbance enters the dynamic system to attenuate the effect of the disturbance on the dynamic system.
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