A Nonlinear H∞ Set-point Control Method for Turbofan Engines with Disturbances

To provide desired control performance for turbofan engines subject to external disturbances, a nonlinear H ∞ set-point control approach is proposed in this paper. The nonlinear H ∞ set-point control expands the scope of controllable operation and limits the impact of disturbances on turbofan engine...

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Published in	International journal of control, automation, and systems Vol. 19; no. 9; pp. 3062 - 3074
Main Authors	Cheng, Dingding, Liu, Lijun, Yu, Zhen
Format	Journal Article
Language	English
Published	Bucheon / Seoul Institute of Control, Robotics and Systems and The Korean Institute of Electrical Engineers 01.09.2021 Springer Nature B.V 제어·로봇·시스템학회
Subjects	Asymptotic methods Control Control methods Control stability Control systems design Controllers Disturbances Dynamical systems Engineering Engines H-infinity control Mechatronics Nonlinear control Nonlinear dynamics Polynomials Regular Papers Robotics State space models Transient response Turbofan engines 제어계측공학 Asymptotic stability polynomial nonlinear state-space model fuel consumption disturbance rejection robustness surge margins set-point control nonlinear
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ISSN	1598-6446 2005-4092
DOI	10.1007/s12555-020-0436-3

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Abstract	To provide desired control performance for turbofan engines subject to external disturbances, a nonlinear H ∞ set-point control approach is proposed in this paper. The nonlinear H ∞ set-point control expands the scope of controllable operation and limits the impact of disturbances on turbofan engines, which can effectively reduce the frequency of controller switching and improve the stability of the control system. Firstly, a simple polynomial nonlinear state-space model is employed to approximate the nonlinear dynamics of turbofan engines in certain operating conditions. Then, the nonlinear H ∞ set-point controller is designed to ensure the states of turbofan engines robust to exogenous disturbances. Finally, it is proven that the proposed controller guarantees asymptotic stability and robustness. Simulation results show that the proposed method can improve transient responses, disturbance rejection, surge margins, and fuel consumption for the component level engine model JT9D.
AbstractList	To provide desired control performance for turbofan engines subject to external disturbances, a nonlinear H ∞ set-point control approach is proposed in this paper. The nonlinear H ∞ set-point control expands the scope of controllable operation and limits the impact of disturbances on turbofan engines, which can effectively reduce the frequency of controller switching and improve the stability of the control system. Firstly, a simple polynomial nonlinear state-space model is employed to approximate the nonlinear dynamics of turbofan engines in certain operating conditions. Then, the nonlinear H ∞ set-point controller is designed to ensure the states of turbofan engines robust to exogenous disturbances. Finally, it is proven that the proposed controller guarantees asymptotic stability and robustness. Simulation results show that the proposed method can improve transient responses, disturbance rejection, surge margins, and fuel consumption for the component level engine model JT9D. To provide desired control performance for turbofan engines subject to external disturbances, a nonlinearH∞ set-point control approach is proposed in this paper. The nonlinear H∞ set-point control expands the scopeof controllable operation and limits the impact of disturbances on turbofan engines, which can effectively reducethe frequency of controller switching and improve the stability of the control system. Firstly, a simple polynomialnonlinear state-space model is employed to approximate the nonlinear dynamics of turbofan engines in certainoperating conditions. Then, the nonlinear H∞ set-point controller is designed to ensure the states of turbofan enginesrobust to exogenous disturbances. Finally, it is proven that the proposed controller guarantees asymptotic stabilityand robustness. Simulation results show that the proposed method can improve transient responses, disturbancerejection, surge margins, and fuel consumption for the component level engine model JT9D. KCI Citation Count: 3 To provide desired control performance for turbofan engines subject to external disturbances, a nonlinear H∞ set-point control approach is proposed in this paper. The nonlinear H∞ set-point control expands the scope of controllable operation and limits the impact of disturbances on turbofan engines, which can effectively reduce the frequency of controller switching and improve the stability of the control system. Firstly, a simple polynomial nonlinear state-space model is employed to approximate the nonlinear dynamics of turbofan engines in certain operating conditions. Then, the nonlinear H∞ set-point controller is designed to ensure the states of turbofan engines robust to exogenous disturbances. Finally, it is proven that the proposed controller guarantees asymptotic stability and robustness. Simulation results show that the proposed method can improve transient responses, disturbance rejection, surge margins, and fuel consumption for the component level engine model JT9D.
Author	Liu, Lijun Cheng, Dingding Yu, Zhen
Author_xml	– sequence: 1 givenname: Dingding surname: Cheng fullname: Cheng, Dingding organization: School of Aerospace Engineering, Xiamen University, Shenzhen Research Institute of Xiamen University – sequence: 2 givenname: Lijun orcidid: 0000-0002-9855-1577 surname: Liu fullname: Liu, Lijun email: liulijun@xmu.edu.cn organization: School of Aerospace Engineering, Xiamen University, Shenzhen Research Institute of Xiamen University – sequence: 3 givenname: Zhen orcidid: 0000-0002-4550-6182 surname: Yu fullname: Yu, Zhen email: yuzhen20@xmu.edu.cn organization: School of Aerospace Engineering, Xiamen University
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Snippet	To provide desired control performance for turbofan engines subject to external disturbances, a nonlinear H ∞ set-point control approach is proposed in this... To provide desired control performance for turbofan engines subject to external disturbances, a nonlinear H∞ set-point control approach is proposed in this... To provide desired control performance for turbofan engines subject to external disturbances, a nonlinearH∞ set-point control approach is proposed in this...
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SubjectTerms	Asymptotic methods Control Control methods Control stability Control systems design Controllers Disturbances Dynamical systems Engineering Engines H-infinity control Mechatronics Nonlinear control Nonlinear dynamics Polynomials Regular Papers Robotics State space models Transient response Turbofan engines 제어계측공학
Title	A Nonlinear H∞ Set-point Control Method for Turbofan Engines with Disturbances
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