Finite time stability control based on higher-order sliding mode for TORA system

Jie Yang; Qinglin Wang; Yuan Li

doi:10.1109/ASCC.2013.6606249

Finite time stability control based on higher-order sliding mode for TORA system

Jie Yang, Qinglin Wang, Yuan Li

Beijing Institute of Technology

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

1 Citation (Scopus)

Abstract

Translational oscillators with rotating actuator (TORA) system is a challenge for controller design because of its underactuated character. A finite time stability control method based on higher-order sliding mode is proposed to achieve finite time stability under uncertainty for the TORA system. The TORA dynamical model function is transformed to cascade normal forms. For the second order subsystem, virtual control is introduced and the finite time stability proof is given with the conception of terminal sliding mode. Actual variable tracking virtual control in finite time is achieved by higher-order sliding mode controller. Adaptive robust method is proposed to solve uncertainty problem with unknown upper bounds, and proof of finite time stability is given. Simulation results verify the robustness of the methods.

Original language	English
Title of host publication	2013 9th Asian Control Conference, ASCC 2013
DOIs	https://doi.org/10.1109/ASCC.2013.6606249
Publication status	Published - 2013
Event	2013 9th Asian Control Conference, ASCC 2013 - Istanbul, Turkey Duration: 23 Jun 2013 → 26 Jun 2013

Publication series

Name	2013 9th Asian Control Conference, ASCC 2013

Conference

Conference	2013 9th Asian Control Conference, ASCC 2013
Country/Territory	Turkey
City	Istanbul
Period	23/06/13 → 26/06/13

Keywords

TORA
finite time convergence
higher-order sliding mode
uncertainty

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10.1109/ASCC.2013.6606249

Cite this

@inproceedings{fa9d9e3f770f40ba9e9ad5b9f6fec97e,

title = "Finite time stability control based on higher-order sliding mode for TORA system",

abstract = "Translational oscillators with rotating actuator (TORA) system is a challenge for controller design because of its underactuated character. A finite time stability control method based on higher-order sliding mode is proposed to achieve finite time stability under uncertainty for the TORA system. The TORA dynamical model function is transformed to cascade normal forms. For the second order subsystem, virtual control is introduced and the finite time stability proof is given with the conception of terminal sliding mode. Actual variable tracking virtual control in finite time is achieved by higher-order sliding mode controller. Adaptive robust method is proposed to solve uncertainty problem with unknown upper bounds, and proof of finite time stability is given. Simulation results verify the robustness of the methods.",

keywords = "TORA, finite time convergence, higher-order sliding mode, uncertainty",

author = "Jie Yang and Qinglin Wang and Yuan Li",

year = "2013",

doi = "10.1109/ASCC.2013.6606249",

language = "English",

isbn = "9781467357692",

series = "2013 9th Asian Control Conference, ASCC 2013",

booktitle = "2013 9th Asian Control Conference, ASCC 2013",

note = "2013 9th Asian Control Conference, ASCC 2013 ; Conference date: 23-06-2013 Through 26-06-2013",

}

TY - GEN

T1 - Finite time stability control based on higher-order sliding mode for TORA system

AU - Yang, Jie

AU - Wang, Qinglin

AU - Li, Yuan

PY - 2013

Y1 - 2013

N2 - Translational oscillators with rotating actuator (TORA) system is a challenge for controller design because of its underactuated character. A finite time stability control method based on higher-order sliding mode is proposed to achieve finite time stability under uncertainty for the TORA system. The TORA dynamical model function is transformed to cascade normal forms. For the second order subsystem, virtual control is introduced and the finite time stability proof is given with the conception of terminal sliding mode. Actual variable tracking virtual control in finite time is achieved by higher-order sliding mode controller. Adaptive robust method is proposed to solve uncertainty problem with unknown upper bounds, and proof of finite time stability is given. Simulation results verify the robustness of the methods.

AB - Translational oscillators with rotating actuator (TORA) system is a challenge for controller design because of its underactuated character. A finite time stability control method based on higher-order sliding mode is proposed to achieve finite time stability under uncertainty for the TORA system. The TORA dynamical model function is transformed to cascade normal forms. For the second order subsystem, virtual control is introduced and the finite time stability proof is given with the conception of terminal sliding mode. Actual variable tracking virtual control in finite time is achieved by higher-order sliding mode controller. Adaptive robust method is proposed to solve uncertainty problem with unknown upper bounds, and proof of finite time stability is given. Simulation results verify the robustness of the methods.

KW - TORA

KW - finite time convergence

KW - higher-order sliding mode

KW - uncertainty

UR - http://www.scopus.com/inward/record.url?scp=84886510779&partnerID=8YFLogxK

U2 - 10.1109/ASCC.2013.6606249

DO - 10.1109/ASCC.2013.6606249

M3 - Conference contribution

AN - SCOPUS:84886510779

SN - 9781467357692

T3 - 2013 9th Asian Control Conference, ASCC 2013

BT - 2013 9th Asian Control Conference, ASCC 2013

T2 - 2013 9th Asian Control Conference, ASCC 2013

Y2 - 23 June 2013 through 26 June 2013

ER -

Finite time stability control based on higher-order sliding mode for TORA system

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