Event-triggered adaptive fuzzy control for automated vehicle steer-by-wire system with prescribed performance: Theoretical design and experiment implementation

Steer-by-wire (SbW) systems substitute the typical mechanical linkage between the steering wheel and the front wheel with electromechanical actuators, resulting in that the steering performance of SbW systems depends on the control of electromechanical actuators. To guarantee the transient and stead...

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Published inExpert systems with applications Vol. 195; p. 116458
Main Authors Luo, Gang, Li, Hongjuan, Ma, Bingxin, Wang, Yongfu
Format Journal Article
LanguageEnglish
Published New York Elsevier Ltd 01.06.2022
Elsevier BV
Subjects
Actuators
Adaptive control
Adaptive state observer
Angular velocity
Automatic control
Automation
Communication
Convergence
Disturbance observers
Drive by wire
Error analysis
Event-triggered control
Experiments
Feedback control
Fuzzy control
Fuzzy logic
Interval type-2 fuzzy logic system
Output feedback
Prescribed tracking performance
Steady state
Steer-by-wire system
System dynamics
Tracking errors
Uncertainty
Adaptive state observer
Interval type-2 fuzzy logic system
Prescribed tracking performance
Event-triggered control
Steer-by-wire system
Online AccessGet full text
ISSN0957-4174
1873-6793
DOI10.1016/j.eswa.2021.116458

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Abstract Steer-by-wire (SbW) systems substitute the typical mechanical linkage between the steering wheel and the front wheel with electromechanical actuators, resulting in that the steering performance of SbW systems depends on the control of electromechanical actuators. To guarantee the transient and steady-state performance of SbW systems, this paper proposes an event-triggered adaptive fuzzy control for the SbW system subject to the unavailable steering angular velocity, the time-varying disturbance, and the limited communication resources. First, to solve the problem of uncertainty modeling and external interference, an interval type-2 fuzzy logic system (IT2 FLS) and a disturbance observer are used to approximate the unknown SbW system dynamics and disturbance, respectively. Second, considering the angular velocity of the front wheels is difficult to measure, an adaptive observer is developed to estimate the steering angular velocity. The observation error is proved by the Lyapunov theory to converge in finite time. Third, to guarantee the transient and steady-state performance of the SbW system, this paper develops an output feedback controller for the automated vehicles based on event-triggered control (ETC) and prescribed performance control (PPC). Theoretical analysis proves that the tracking error can converge to a preset range within the set time, and the communication data between the controller and the actuator is reduced. Finally, simulation and experiment verify the effectiveness and superiority of the proposed method. From the analysis of the estimation performance, the designed observer has strong adaptability, which can ensure better observation accuracy even if the system has uncertainty. From the analysis of control performance, the proposed controller can guarantee the output trajectory tracking performance attributes (maximum overshoot, convergence time, maximum steady-state error). More specifically, in the experiment, the tracking error can converge to within 0.075 rad in 5 s. Additionally, the RMSE of the experimental results of the designed method is 44.7% higher than that of the output-feedback adaptive neural controller. From the perspective of communication data, the control signal transmitted to the motor driver is effectively saved by 19.3 %. •Steer-by-Wire systems replace the mechanical connection by electronic unit.•A type-2 fuzzy logic system is adopted to approximated the unknown nonlinearity.•A finite-time performance function is designed as the tracking error boundary.•An event-triggered adaptive fuzzy control can achieve the preset performance.•RMSE of the tracking error improves 44.7%, the communication data reduces 19.3%.
AbstractList Steer-by-wire (SbW) systems substitute the typical mechanical linkage between the steering wheel and the front wheel with electromechanical actuators, resulting in that the steering performance of SbW systems depends on the control of electromechanical actuators. To guarantee the transient and steady-state performance of SbW systems, this paper proposes an event-triggered adaptive fuzzy control for the SbW system subject to the unavailable steering angular velocity, the time-varying disturbance, and the limited communication resources. First, to solve the problem of uncertainty modeling and external interference, an interval type-2 fuzzy logic system (IT2 FLS) and a disturbance observer are used to approximate the unknown SbW system dynamics and disturbance, respectively. Second, considering the angular velocity of the front wheels is difficult to measure, an adaptive observer is developed to estimate the steering angular velocity. The observation error is proved by the Lyapunov theory to converge in finite time. Third, to guarantee the transient and steady-state performance of the SbW system, this paper develops an output feedback controller for the automated vehicles based on event-triggered control (ETC) and prescribed performance control (PPC). Theoretical analysis proves that the tracking error can converge to a preset range within the set time, and the communication data between the controller and the actuator is reduced. Finally, simulation and experiment verify the effectiveness and superiority of the proposed method. From the analysis of the estimation performance, the designed observer has strong adaptability, which can ensure better observation accuracy even if the system has uncertainty. From the analysis of control performance, the proposed controller can guarantee the output trajectory tracking performance attributes (maximum overshoot, convergence time, maximum steady-state error). More specifically, in the experiment, the tracking error can converge to within 0.075 rad in 5 s. Additionally, the RMSE of the experimental results of the designed method is 44.7% higher than that of the output-feedback adaptive neural controller. From the perspective of communication data, the control signal transmitted to the motor driver is effectively saved by 19.3 %.
Steer-by-wire (SbW) systems substitute the typical mechanical linkage between the steering wheel and the front wheel with electromechanical actuators, resulting in that the steering performance of SbW systems depends on the control of electromechanical actuators. To guarantee the transient and steady-state performance of SbW systems, this paper proposes an event-triggered adaptive fuzzy control for the SbW system subject to the unavailable steering angular velocity, the time-varying disturbance, and the limited communication resources. First, to solve the problem of uncertainty modeling and external interference, an interval type-2 fuzzy logic system (IT2 FLS) and a disturbance observer are used to approximate the unknown SbW system dynamics and disturbance, respectively. Second, considering the angular velocity of the front wheels is difficult to measure, an adaptive observer is developed to estimate the steering angular velocity. The observation error is proved by the Lyapunov theory to converge in finite time. Third, to guarantee the transient and steady-state performance of the SbW system, this paper develops an output feedback controller for the automated vehicles based on event-triggered control (ETC) and prescribed performance control (PPC). Theoretical analysis proves that the tracking error can converge to a preset range within the set time, and the communication data between the controller and the actuator is reduced. Finally, simulation and experiment verify the effectiveness and superiority of the proposed method. From the analysis of the estimation performance, the designed observer has strong adaptability, which can ensure better observation accuracy even if the system has uncertainty. From the analysis of control performance, the proposed controller can guarantee the output trajectory tracking performance attributes (maximum overshoot, convergence time, maximum steady-state error). More specifically, in the experiment, the tracking error can converge to within 0.075 rad in 5 s. Additionally, the RMSE of the experimental results of the designed method is 44.7% higher than that of the output-feedback adaptive neural controller. From the perspective of communication data, the control signal transmitted to the motor driver is effectively saved by 19.3 %. •Steer-by-Wire systems replace the mechanical connection by electronic unit.•A type-2 fuzzy logic system is adopted to approximated the unknown nonlinearity.•A finite-time performance function is designed as the tracking error boundary.•An event-triggered adaptive fuzzy control can achieve the preset performance.•RMSE of the tracking error improves 44.7%, the communication data reduces 19.3%.
ArticleNumber 116458
Author Ma, Bingxin
Li, Hongjuan
Luo, Gang
Wang, Yongfu
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  givenname: Hongjuan
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  givenname: Yongfu
  orcidid: 0000-0002-3807-6532
  surname: Wang
  fullname: Wang, Yongfu
  email: yfwang@mail.neu.edu.cn
  organization: School of Mechanical Engineering and Automation, Northeastern University, Shenyang 110819, China
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Keywords Adaptive state observer
Interval type-2 fuzzy logic system
Prescribed tracking performance
Event-triggered control
Steer-by-wire system
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Snippet Steer-by-wire (SbW) systems substitute the typical mechanical linkage between the steering wheel and the front wheel with electromechanical actuators,...
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SubjectTerms Actuators
Adaptive control
Adaptive state observer
Angular velocity
Automatic control
Automation
Communication
Convergence
Disturbance observers
Drive by wire
Error analysis
Event-triggered control
Experiments
Feedback control
Fuzzy control
Fuzzy logic
Interval type-2 fuzzy logic system
Output feedback
Prescribed tracking performance
Steady state
Steer-by-wire system
System dynamics
Tracking errors
Uncertainty
Title Event-triggered adaptive fuzzy control for automated vehicle steer-by-wire system with prescribed performance: Theoretical design and experiment implementation
URI https://dx.doi.org/10.1016/j.eswa.2021.116458
https://www.proquest.com/docview/2647396503
Volume 195
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