Adaptive stabilization of stochastic systems with polynomial nonlinear conditions, unknown parameters, and dead‐zone actuator

Adaptive stabilization of stochastic systems with polynomial nonlinear conditions, unknown parameters, and dead‐zone actuator

Many practical dynamic models always suffer from complex nonlinearities, parameter uncertainties and random noises. Such kind of models are always characterized by uncertain stochastic nonlinear systems. Besides, many factors will lead to dead‐zone actuator, which further adds more challenges to con...

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Veröffentlicht in:International journal of robust and nonlinear control 2024-05, Vol.34 (8), p.5524-5539
Hauptverfasser: Xue, Lingrong, Liu, Zhen‐Guo, Zhang, Weihai
Format: Artikel
Sprache:eng
Schlagworte:
Actuators
Adaptive control
Dynamic models
Mechanical systems
Nonlinear systems
Nonlinearity
Parameter uncertainty
Polynomials
Stabilization
Stochastic systems
uncertainty
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Zusammenfassung:Many practical dynamic models always suffer from complex nonlinearities, parameter uncertainties and random noises. Such kind of models are always characterized by uncertain stochastic nonlinear systems. Besides, many factors will lead to dead‐zone actuator, which further adds more challenges to control engineering. This paper studies stabilization issue of stochastic systems with polynomial nonlinear conditions, unknown parameters and dead‐zone actuator. An adaptive control approach is proposed by exploring homogeneous domination control and using dynamic‐gain‐based adaptive design strategy. It shows that all the signals are bounded almost surely and the system states converge to the origin almost surely. The presented method is successfully applied to the mass spring mechanical system.
ISSN:1049-8923
1099-1239
DOI:10.1002/rnc.7254