Adaptive Neural Control of Vehicle Yaw Stability with Active Front Steering using an Improved Random Projection Neural Network

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Status	已發表Published
	Adaptive Neural Control of Vehicle Yaw Stability with Active Front Steering using an Improved Random Projection Neural Network
	Huang, W.; Wong, P. K.; Wong, K.I.; Vong, C. M.; Zhao, J.
	2021-03-01
Source Publication	Vehicle Systems Dynamics (SCI-E)
ISSN	1744-5159
Pages	396-414
Abstract	Active front steering (AFS) can enhance the vehicle yaw stability, which is essential to road safety. However, the control of vehicle yaw rate is very challenging due to 1) the unmodeled nonlinearity and uncertainties in vehicle dynamics; 2) timely response in control scheme. These two issues can be simultaneously alleviated through a random projection neural network (RPNN) for its high model generalization and fast computational speed. However, typical RPNN cannot be directly applied to adaptive control applications. For this reason, a new RPNN-based adaptive neural control method is proposed, which is equipped with a newly designed adaptation law based on the theorem of Lyapunov stability. To test the performance of the proposed control method, simulations were carried out using a validated vehicle model. The simulation results show that, compared to conventional backpropagation neural network (BPNN) based controller, the proposed RPNN-based adaptive controller can reduce the response time and attenuate oscillatory steering in the case of cornering maneuver under fast variant vehicle speed. The results also demonstrate that the proposed RPNN-based adaptive controller outperforms the state-of-the-art fuzzy logic controller and the error feedback controller in multiple aspects including tracking nominal vehicle yaw rate, desired sideslip angle and intended path, showing its significance in vehicle yaw stability control.
Keyword	Active front steering yaw rate control lateral stability adaptive neural control random projection neural network
Language	英語English
The Source to Article	PB_Publication
PUB ID	46699
Document Type	Journal article
Collection	Faculty of Science and Technology
Corresponding Author	Wong, P. K.; Zhao, J.
Recommended Citation GB/T 7714	Huang, W.,Wong, P. K.,Wong, K.I.,et al. Adaptive Neural Control of Vehicle Yaw Stability with Active Front Steering using an Improved Random Projection Neural Network[J]. Vehicle Systems Dynamics (SCI-E), 2021, 396-414.
APA	Huang, W.., Wong, P. K.., Wong, K.I.., Vong, C. M.., & Zhao, J. (2021). Adaptive Neural Control of Vehicle Yaw Stability with Active Front Steering using an Improved Random Projection Neural Network. Vehicle Systems Dynamics (SCI-E), 396-414.
MLA	Huang, W.,et al."Adaptive Neural Control of Vehicle Yaw Stability with Active Front Steering using an Improved Random Projection Neural Network".Vehicle Systems Dynamics (SCI-E) (2021):396-414.

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