| Estimation of Sideslip Angle Based on the Combination of Dynamic and Kinematic Methods |
| Yuan Jie Ma1, Xing Lin Zhou1, Mao Ping Ran2 |
1School of Machinery and Automation, Wuhan University of Science and Technology, Wuhan, 430081, China
2School of Automobile and Traffic Engineering, Wuhan University of Science and Technology, Wuhan, 430081, China |
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Received: July 2, 2024; Revised: September 19, 2024 Accepted: October 18, 2024. Published online: November 29, 2024. |
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| ABSTRACT |
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The sideslip angle is an important parameter for vehicle stability control, but the acquisition of the sideslip angle requires expensive experimental equipment, which is not suitable for ordinary passenger vehicles. Therefore, the sideslip angle is usually estimated by the state quantity easily obtained by the vehicle directly. An extended Kalman filter (EKF) observer for vehicle steady state is constructed based on a single-track vehicle model combined with a transient magic tire model. The kinematic model based on velocity relationship of the vehicle can accurately calculate the sideslip angle under transient conditions. The EKF observer of kinematic method is designed for the estimation of sideslip angle under transient characteristic. On this basis, combining the advantages of the two estimations, a weight allocation method based on the transient characteristics of the vehicle is designed to improve the estimation accuracy in the whole operating condition. The finding derived from the joint simulation conducted by Carsim and Matlab/Simulink indicate that the fusion estimator can combine the advantages of dynamic and kinematic methods. It not only has good robustness to sensor noise and signal error, but also can achieve accurate estimation of sideslip angle under various road condition and driving control. |
| Key Words:
Sideslip angle estimation · EKF · Dynamic method · Kinematic method · Fusion estimation |
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Corresponding Author.
Xing Lin Zhou , Email. 
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