Optimum distribution of yaw moment for unified chassis control with limitations on the active front steering angle

S. Yim; W. Cho; J. Yoon; K. Yi

doi:10.1007/s12239-010-0079-0

Optimum distribution of yaw moment for unified chassis control with limitations on the active front steering angle

S. Yim, W. Cho, J. Yoon, K. Yi

Dept. of Mechanical & Automotive Engineering

Seoul National University

Research output: Contribution to journal › Article › peer-review

25 Scopus citations

Abstract

This paper describes an optimum distribution method for yaw moment for use with unified chassis control (UCC) with limitations on the active front steering (AFS) angle. Although the UCC has been assumed to have no AFS angle limitation in the literature, a physical limitation exists in real applications. To improve upon the previous method, a new optimum distribution method for yaw moment is proposed that takes this limitation into account. This method derives an optimum longitudinal/lateral force using the Karush-Kuhn-Tucker (KKT) optimality condition, and a simulation is performed to validate the proposed method. The simulation results indicate that the limitation on the AFS angle increases longitudinal braking force and, therefore, reduces the vehicle speed and the side-slip angle.

Original language	English
Pages (from-to)	665-672
Number of pages	8
Journal	International Journal of Automotive Technology
Volume	11
Issue number	5
DOIs	https://doi.org/10.1007/s12239-010-0079-0
State	Published - 2010

Keywords

Active front steering (AFS)
Electronic stability control (ESC)
Lateral stability
Unified chassis control (UCC)
Yaw moment distribution

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10.1007/s12239-010-0079-0

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title = "Optimum distribution of yaw moment for unified chassis control with limitations on the active front steering angle",

abstract = "This paper describes an optimum distribution method for yaw moment for use with unified chassis control (UCC) with limitations on the active front steering (AFS) angle. Although the UCC has been assumed to have no AFS angle limitation in the literature, a physical limitation exists in real applications. To improve upon the previous method, a new optimum distribution method for yaw moment is proposed that takes this limitation into account. This method derives an optimum longitudinal/lateral force using the Karush-Kuhn-Tucker (KKT) optimality condition, and a simulation is performed to validate the proposed method. The simulation results indicate that the limitation on the AFS angle increases longitudinal braking force and, therefore, reduces the vehicle speed and the side-slip angle.",

keywords = "Active front steering (AFS), Electronic stability control (ESC), Lateral stability, Unified chassis control (UCC), Yaw moment distribution",

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AU - Yim, S.

AU - Cho, W.

AU - Yoon, J.

AU - Yi, K.

PY - 2010

Y1 - 2010

N2 - This paper describes an optimum distribution method for yaw moment for use with unified chassis control (UCC) with limitations on the active front steering (AFS) angle. Although the UCC has been assumed to have no AFS angle limitation in the literature, a physical limitation exists in real applications. To improve upon the previous method, a new optimum distribution method for yaw moment is proposed that takes this limitation into account. This method derives an optimum longitudinal/lateral force using the Karush-Kuhn-Tucker (KKT) optimality condition, and a simulation is performed to validate the proposed method. The simulation results indicate that the limitation on the AFS angle increases longitudinal braking force and, therefore, reduces the vehicle speed and the side-slip angle.

AB - This paper describes an optimum distribution method for yaw moment for use with unified chassis control (UCC) with limitations on the active front steering (AFS) angle. Although the UCC has been assumed to have no AFS angle limitation in the literature, a physical limitation exists in real applications. To improve upon the previous method, a new optimum distribution method for yaw moment is proposed that takes this limitation into account. This method derives an optimum longitudinal/lateral force using the Karush-Kuhn-Tucker (KKT) optimality condition, and a simulation is performed to validate the proposed method. The simulation results indicate that the limitation on the AFS angle increases longitudinal braking force and, therefore, reduces the vehicle speed and the side-slip angle.

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KW - Electronic stability control (ESC)

KW - Lateral stability

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Optimum distribution of yaw moment for unified chassis control with limitations on the active front steering angle

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Keywords

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