Research on full state feedback control strategy of steer-by-wire

Guobiao Shi; Leiyan Yu; Yi Lin

Research on full state feedback control strategy of steer-by-wire

Guobiao Shi^*, Leiyan Yu, Yi Lin

^*Corresponding author for this work

School of Mechanical Engineering

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

Abstract

Full states (i.e. slip angle and yaw rate) feedback control strategy was researched and feedback coefficients of slip angle and yaw rate were acquired according to the concepts of virtual front tire cornering stiffness coefficient. Slip angle was estimated with Kalman filter. Effects of virtual front tire cornering stiffness coefficient changing coefficient on poles and frequency characteristics have been researched. Simulations showed that virtual front tire cornering stiffness coefficient changing coefficients could be chosen based on velocities to change steering characteristics: positive coefficient at low velocities leading to oversteer and steering agile; while negative coefficient at high velocities leading to understeer and steering stable. So presented control strategy improved handling and stabilities.

Original language	English
Pages (from-to)	30-32+46
Journal	Nongye Jixie Xuebao/Transactions of the Chinese Society for Agricultural Machinery
Volume	39
Issue number	2
Publication status	Published - Feb 2008

Keywords

Control strategy
Full state feedback
Steer-by-wire
Steering characteristics

Cite this

Shi, G., Yu, L., & Lin, Y. (2008). Research on full state feedback control strategy of steer-by-wire. Nongye Jixie Xuebao/Transactions of the Chinese Society for Agricultural Machinery, 39(2), 30-32+46.

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abstract = "Full states (i.e. slip angle and yaw rate) feedback control strategy was researched and feedback coefficients of slip angle and yaw rate were acquired according to the concepts of virtual front tire cornering stiffness coefficient. Slip angle was estimated with Kalman filter. Effects of virtual front tire cornering stiffness coefficient changing coefficient on poles and frequency characteristics have been researched. Simulations showed that virtual front tire cornering stiffness coefficient changing coefficients could be chosen based on velocities to change steering characteristics: positive coefficient at low velocities leading to oversteer and steering agile; while negative coefficient at high velocities leading to understeer and steering stable. So presented control strategy improved handling and stabilities.",

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author = "Guobiao Shi and Leiyan Yu and Yi Lin",

year = "2008",

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language = "English",

volume = "39",

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AU - Shi, Guobiao

AU - Yu, Leiyan

AU - Lin, Yi

PY - 2008/2

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N2 - Full states (i.e. slip angle and yaw rate) feedback control strategy was researched and feedback coefficients of slip angle and yaw rate were acquired according to the concepts of virtual front tire cornering stiffness coefficient. Slip angle was estimated with Kalman filter. Effects of virtual front tire cornering stiffness coefficient changing coefficient on poles and frequency characteristics have been researched. Simulations showed that virtual front tire cornering stiffness coefficient changing coefficients could be chosen based on velocities to change steering characteristics: positive coefficient at low velocities leading to oversteer and steering agile; while negative coefficient at high velocities leading to understeer and steering stable. So presented control strategy improved handling and stabilities.

AB - Full states (i.e. slip angle and yaw rate) feedback control strategy was researched and feedback coefficients of slip angle and yaw rate were acquired according to the concepts of virtual front tire cornering stiffness coefficient. Slip angle was estimated with Kalman filter. Effects of virtual front tire cornering stiffness coefficient changing coefficient on poles and frequency characteristics have been researched. Simulations showed that virtual front tire cornering stiffness coefficient changing coefficients could be chosen based on velocities to change steering characteristics: positive coefficient at low velocities leading to oversteer and steering agile; while negative coefficient at high velocities leading to understeer and steering stable. So presented control strategy improved handling and stabilities.

KW - Control strategy

KW - Full state feedback

KW - Steer-by-wire

KW - Steering characteristics

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JO - Nongye Jixie Xuebao/Transactions of the Chinese Society for Agricultural Machinery

JF - Nongye Jixie Xuebao/Transactions of the Chinese Society for Agricultural Machinery

IS - 2

ER -

Research on full state feedback control strategy of steer-by-wire

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