Changsoo Han scite author profile

Abstract:A steer-by-wire (SbW) system, also known as a next-generation steering system, is one of the core elements of autonomous driving technology. Navigating a SbW system road vehicle in varying driving conditions requires an adaptive and robust control scheme to effectively compensate for the uncertain parameter variations and external disturbances. Therefore, this article proposed an adaptive global fast sliding mode control (AGFSMC) for SbW system vehicles with unknown steering parameters. First, the cooperative adaptive sliding mode observer (ASMO) and Kalman filter (KF) are established to simultaneously estimate the vehicle states and cornering stiffness coefficients. Second, based on the best set of estimated dynamics, the AGFSMC is designed to stabilize the impact of nonlinear tire-road disturbance forces and at the same time to estimate the uncertain SbW system parameters. Due to the robust nature of the proposed scheme, it can not only handle the tire-road variation, but also intelligently adapts to the different driving conditions and ensures that the tracking error and the sliding surface converge asymptotically to zero in a finite time. Finally, simulation results and comparative study with other control techniques validate the excellent performance of the proposed scheme.

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Human-robot cooperative control based on pHRI (Physical Human-Robot Interaction) of exoskeleton robot for a human upper extremity

Lee

Kim

et al. 2012

Int. J. Precis. Eng. Manuf.

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Design of an exoskeleton with minimized energy consumption based on using elastic and dissipative elements

Kim

Lee

Jang

et al. 2015

Int. J. Control Autom. Syst.

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Adaptive impedance control for upper limb assist exoskeleton

Khan

Yun

Ali³

et al. 2015

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Compact and lightweight optical torque sensor for robots with increased range

Shams

Lee

Han

2012

Sensors and Actuators A: Physical

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Changsoo Han

The technical trend of the exoskeleton robot system for human power assistance

A survey on the formation control of multiple quadrotors

Passivity based adaptive control for upper extremity assist exoskeleton

Adaptive Global Fast Sliding Mode Control for Steer-by-Wire System Road Vehicles

Human-robot cooperative control based on pHRI (Physical Human-Robot Interaction) of exoskeleton robot for a human upper extremity

Design of an exoskeleton with minimized energy consumption based on using elastic and dissipative elements

Adaptive impedance control for upper limb assist exoskeleton

Compact and lightweight optical torque sensor for robots with increased range

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