Finite Time Stabilization of a Perturbed Double Integrator-Part I: Continuous Sliding Mode-Based Output Feedback Synthesis

Finite Time Stabilization of a Perturbed Double Integrator-Part I: Continuous Sliding Mode-Based Output Feedback Synthesis

The twisting and supertwisting algorithms, generating important classes of second order sliding modes (SOSMs), are well-recognized for their finite time stability and robustness properties. In the present paper, a continuous modification of the twisting algorithm and an inhomogeneous perturbation of...

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Veröffentlicht in:IEEE transactions on automatic control 2011-03, Vol.56 (3), p.614-618
Hauptverfasser: Orlov, Yury, Aoustin, Yannick, Chevallereau, Christine
Format: Artikel
Sprache:eng
Schlagworte:
Adaptative systems
Algorithms
Applied sciences
Asymptotic stability
Computer science
control theory
systems
Control theory. Systems
Exact sciences and technology
Lyapunov method
Mathematical analysis
Modelling and identification
Observers
Output feedback
Perturbation methods
Robustness
Second order sliding modes (SOSMs)
Stability analysis
Stabilization
State feedback
Switches
Synthesis
System theory
Twisting
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Beschreibung
Zusammenfassung:The twisting and supertwisting algorithms, generating important classes of second order sliding modes (SOSMs), are well-recognized for their finite time stability and robustness properties. In the present paper, a continuous modification of the twisting algorithm and an inhomogeneous perturbation of the supertwisting algorithm are introduced to extend the class of SOSM's that present the afore-mentioned attractive features. Thus modified, the twisting and supertwisting algorithms are utilized in the state feedback synthesis and, respectively, velocity observer design, made for the finite time stabilization of a double integrator if only output measurements are available. Performance and robustness issues of the resulting output feedback synthesis are illustrated by means of numerical simulations.
ISSN:0018-9286
1558-2523
DOI:10.1109/TAC.2010.2090708