Electropneumatic Cylinder Backstepping Position Controller Design With Real-Time Closed-Loop Stiffness and Damping Tuning
This paper develops a backstepping-based algorithm to control the position of an electropneumatic actuator while allowing the precise tuning of the closed-loop stiffness and damping. The proposed strategy offers an efficient method to choose the controller parameters based on a physical and linear a...
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| Published in | IEEE transactions on control systems technology Vol. 24; no. 2; pp. 541 - 552 |
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| Main Authors | , , , , |
| Format | Journal Article |
| Language | English |
| Published |
New York
IEEE
01.03.2016
The Institute of Electrical and Electronics Engineers, Inc. (IEEE) Institute of Electrical and Electronics Engineers |
| Subjects | |
| Online Access | Get full text |
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| Abstract | This paper develops a backstepping-based algorithm to control the position of an electropneumatic actuator while allowing the precise tuning of the closed-loop stiffness and damping. The proposed strategy offers an efficient method to choose the controller parameters based on a physical and linear analysis. The strict feedback form of the model, which is required in order to apply the backstepping methodology, is obtained through the use of a transformation of the system's inputs. The proposed multiple input multiple output control law as well as its parameters tuning method are validated experimentally. The experimental results are provided using an innovative test bench combining an electropneumatic cylinder and an electric linear motor. The two main contributions are: 1) the use of a new decoupling transformation to control the system's 2 DOF and 2) the description of a closed-loop damping and stiffness tuning strategy. Simultaneous position and stiffness control result in a more precise and adjustable variable stiffness actuator than the simultaneous pneumatic force-stiffness control laws generally encountered in the literature. Moreover, a specific study is conducted to clarify the interaction between pneumatic and closed-loop stiffnesses in order to combine the advantages of passive and active compliant actuators. |
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| AbstractList | This paper develops a backstepping-based algorithm to control the position of an electropneumatic actuator while allowing the precise tuning of the closed-loop stiffness and damping. The proposed strategy offers an efficient method to choose the controller parameters based on a physical and linear analysis. The strict feedback form of the model, which is required in order to apply the backstepping methodology, is obtained through the use of a transformation of the system's inputs. The proposed multiple input multiple output control law as well as its parameters tuning method are validated experimentally. The experimental results are provided using an innovative test bench combining an electropneumatic cylinder and an electric linear motor. The two main contributions are: 1) the use of a new decoupling transformation to control the system's 2 DOF and 2) the description of a closed-loop damping and stiffness tuning strategy. Simultaneous position and stiffness control result in a more precise and adjustable variable stiffness actuator than the simultaneous pneumatic force-stiffness control laws generally encountered in the literature. Moreover, a specific study is conducted to clarify the interaction between pneumatic and closed-loop stiffnesses in order to combine the advantages of passive and active compliant actuators. This paper develops a backstepping-based algorithm to control the position of an electropneumatic actuator while allowing the precise tuning of the closed-loop stiffness and damping. The proposed strategy offers an efficient method to choose the controller parameters based on a physical and linear analysis. The strict feedback form of the model, which is required in order to apply the backstepping methodology, is obtained through the use of a transformation of the syste's inputs. The proposed multiple input multiple output control law as well as its parameters tuning method are validated experimentally. The experimental results are provided using an innovative test bench combining an electropneumatic cylinder and an electric linear motor. The two main contributions are: 1) the use of a new decoupling transformation to control the syste's 2 DOF and 2) the description of a closed-loop damping and stiffness tuning strategy. Simultaneous position and stiffness control result in a more precise and adjustable variable stiffness actuator than the simultaneous pneumatic force--stiffness control laws generally encountered in the literature. Moreover, a specific study is conducted to clarify the interaction between pneumatic and closed-loop stiffnesses in order to combine the advantages of passive and active compliant actuators. |
| Author | Sesmat, Sylvie Abry, Frederic Ducat, Christophe Brun, Xavier Bideaux, Eric |
| Author_xml | – sequence: 1 givenname: Frederic surname: Abry fullname: Abry, Frederic email: frederic.abry@gmail.com organization: Lab., Ampere, Villeurbannee, France – sequence: 2 givenname: Xavier surname: Brun fullname: Brun, Xavier email: xavier.brun@insa-lyon.fr organization: Lab., Ampere, Villeurbannee, France – sequence: 3 givenname: Sylvie surname: Sesmat fullname: Sesmat, Sylvie email: sylvie.sesmat@insa-lyon.fr organization: Lab., Ampere, Villeurbannee, France – sequence: 4 givenname: Eric surname: Bideaux fullname: Bideaux, Eric email: eric.bideaux@insa-lyon.fr organization: Lab., Ampere, Villeurbannee, France – sequence: 5 givenname: Christophe surname: Ducat fullname: Ducat, Christophe email: christophe.ducat@insa-lyon.fr organization: Lab., Ampere, Villeurbannee, France |
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| Cites_doi | 10.1109/ACC.2005.1470432 10.1109/TMECH.2013.2294970 10.1016/S0967-0661(97)00135-4 10.1115/1.2745850 10.1109/IECON.2009.5414726 10.1109/ACC.2009.5160352 10.1243/0959651991540232 10.1109/TCST.2013.2258466 10.1109/TCST.2008.2002950 10.1016/j.conengprac.2005.05.003 10.1109/MRA.2009.933629 10.1177/002029407600900104 10.1016/j.jfranklin.2013.07.011 |
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| Keywords | nonlinear control Backstepping controller design electropneumatic actuator damping control stiffness control electro-pneumatic actuator backstepping controller design Nonlinear control |
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| References | yoshizawa (ref18) 1966; 9 tustin (ref15) 1947; 94 leonhard (ref16) 1990 abry (ref12) 2013 ref14 laghrouche (ref19) 2004; 6 shearer (ref2) 1956; 78 ref20 ref11 ref10 ref21 ref1 ref8 ref7 ref9 ref4 ref3 ref6 ref5 krstic (ref17) 1995 jebar (ref13) 1977 |
| References_xml | – volume: 94 start-page: 143 year: 1947 ident: ref15 article-title: The effect of backslash and speed-dependent friction on the stability of closed-cycle control systems publication-title: J Inst Elect Eng contributor: fullname: tustin – ident: ref5 doi: 10.1109/ACC.2005.1470432 – ident: ref11 doi: 10.1109/TMECH.2013.2294970 – volume: 9 start-page: 223 year: 1966 ident: ref18 article-title: Stability theory by Liapunov's second method publication-title: Journal of the Mathematical Society of Japan contributor: fullname: yoshizawa – volume: 78 start-page: 233 year: 1956 ident: ref2 article-title: Study of pneumatic processes in the continuous control of motion with compressed air publication-title: Trans Amer Soc Mech Eng contributor: fullname: shearer – year: 1995 ident: ref17 publication-title: Nonlinear and Adaptive Control Design contributor: fullname: krstic – ident: ref4 doi: 10.1016/S0967-0661(97)00135-4 – volume: 6 start-page: 5090 year: 2004 ident: ref19 article-title: Robust second order sliding mode controller for electropneumatic actuator publication-title: Proc Amer Control Conf contributor: fullname: laghrouche – ident: ref10 doi: 10.1115/1.2745850 – ident: ref8 doi: 10.1109/IECON.2009.5414726 – ident: ref21 doi: 10.1109/ACC.2009.5160352 – ident: ref3 doi: 10.1243/0959651991540232 – ident: ref9 doi: 10.1109/TCST.2013.2258466 – ident: ref20 doi: 10.1109/TCST.2008.2002950 – ident: ref7 doi: 10.1016/j.conengprac.2005.05.003 – year: 1990 ident: ref16 publication-title: Control of Electrical Drives contributor: fullname: leonhard – ident: ref1 doi: 10.1109/MRA.2009.933629 – ident: ref14 doi: 10.1177/002029407600900104 – ident: ref6 doi: 10.1016/j.jfranklin.2013.07.011 – start-page: 1089 year: 2013 ident: ref12 article-title: Non-linear position control of a pneumatic actuator with closed-loop stiffness and damping tuning publication-title: Proc Eur Control Conf (ECC) contributor: fullname: abry – year: 1977 ident: ref13 article-title: Design of pneumatic actuator systems contributor: fullname: jebar |
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| Snippet | This paper develops a backstepping-based algorithm to control the position of an electropneumatic actuator while allowing the precise tuning of the closed-loop... |
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| SubjectTerms | Actuators Automatic Backstepping Backstepping controller design damping control electropneumatic actuator Engineering Sciences Force Friction Motors nonlinear control Pistons stiffness control Trajectory Tuning |
| Title | Electropneumatic Cylinder Backstepping Position Controller Design With Real-Time Closed-Loop Stiffness and Damping Tuning |
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