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Review of Control Algorithms of Vehicle Anti-lock Braking System

Zhu, Shuaiwei ; Fan, Xiaobin ; Qi, Gengxin ; [et al.]

Bentham Science Publishers Ltd. ; 2023

In: Recent Patents on Engineering Vol. 17, No. 2 ( 2023-03)

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In: Recent Patents on Engineering, Bentham Science Publishers Ltd., Vol. 17, No. 2 ( 2023-03)

Abstract: Automobile anti-lock braking system (ABS) is an important part of the vehicle active safety control system, which is widely used in all kinds of vehicles. At present, the research of ABS mainly focuses on the study of the control algorithm, which is intended to improve the stability, robustness, and adaptability of the control algorithm. Objective: In the future, it is necessary to explore adaptive robust control algorithms that adapt to extreme conditions such as high nonlinearity and sudden road changes, such as active disturbance rejection control technology, deep learning neural network control technology, etc. Method: According to the research status of domestic and foreign researchers in the field of ABS control algorithms, ABS control algorithms are mainly divided into two categories: control methods based on logic thresholds and control methods based on slip ratio. Results: The comparative study of ABS control methods shows that the logic threshold control method has strong maneuverability and simple implementation, but its adaptability is poor. Sliding mode control has strong robustness and good transient response, but chattering needs to be suppressed. Although the PID control algorithm is simple and easy to implement, it needs to improve the transient response of the system.

Type of Medium: Online Resource

ISSN: 1872-2121

URL: Article

DOI: 10.2174/1872212116666220324154143

Language: English

Publisher: Bentham Science Publishers Ltd.

Publication Date: 2023

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Development of Experimental Teaching Platform for In-Wheel Motor Electric Vehicle On-Board Testing

Wang, Pan ; Fan, Xiaobin ; Zhu, Shuaiwei ; [et al.]

Bentham Science Publishers Ltd. ; 2023

In: Recent Advances in Electrical & Electronic Engineering (Formerly Recent Patents on Electrical & Electronic Engineering) Vol. 16, No. 4 ( 2023-06), p. 436-448

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In: Recent Advances in Electrical & Electronic Engineering (Formerly Recent Patents on Electrical & Electronic Engineering), Bentham Science Publishers Ltd., Vol. 16, No. 4 ( 2023-06), p. 436-448

Abstract: The on-board test system is the key technology of in-wheel motor electric vehicles, which plays a vital role in the safety of the driver and the efficient operation of the vehicle. Methods: Based on the requirements of the current in-wheel motor electric vehicle experiment teaching content, this research develops an in-wheel motor electric vehicle experimental teaching platform based on Matlab/Simulink and LabVIEW to meet the current needs of the in-wheel motor electric vehicle experiment teaching content. Results: The vehicle speed, sideslip angle, and road adhesion coefficient can be accurately estimated using the vehicle test platform developed in the article. Conclusion: With accurate experimental results, the functionality, value, and teaching value of the in-wheel motor electric vehicle experimental teaching platform were fully verified.

Type of Medium: Online Resource

ISSN: 2352-0965

URL: Article

DOI: 10.2174/2352096516666221107144333

Language: English

Publisher: Bentham Science Publishers Ltd.

Publication Date: 2023

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Overview of Key Technologies for Torque Ripple Suppression in Four- Wheel In-Wheel Motor Drive Electric Vehicles

Wang, Pan ; Fan, Xiaobin ; Zhu, Shuaiwei

Bentham Science Publishers Ltd. ; 2023

In: Recent Patents on Engineering Vol. 17, No. 2 ( 2023-03)

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In: Recent Patents on Engineering, Bentham Science Publishers Ltd., Vol. 17, No. 2 ( 2023-03)

Abstract: The stability control of the four-wheel hub motor-driven electric vehicle is of great significance to the safety of the driver during the driving process, and the torque fluctuation is an important factor that affects the stability control of the vehicle. Therefore, this paper reviews the key technologies and difficulties of torque ripple suppression for in-wheel motor-driven electric vehicles from two aspects: rational design of the in-wheel motor structure to suppress the torque fluctuation of the motor and the in-wheel motor torque control distribution strategy. Methods: Through the analysis of the structural characteristics of the motor, the structural optimization design of the pole slot, cogging, core shape, and magnetic pole shape is used to suppress the torque fluctuation of the motor, and the methods of previous scholars are unified and explained; From the motor control strategy, summed up the scholars in the motor torque ripple suppression method strategy; From the perspective of motor torque control allocation strategy, a series of related strategies are elaborated. The previous researchers proposed the neural network PID electronic differential speed torque comprehensive control strategies, electronic differential control algorithms based on sliding mode control, automotive electronic stability program control algorithms based on hierarchical coordinated control strategies, and other control strategies and algorithms. Results: Based on the theoretical model, the theoretical model is verified and tested through software simulation or test platform. The errors of all simulation and test results in the literature and the theoretical model are within the acceptable range. Conclusion: The theoretical model has been verified on the software simulation or test platform, which proves the feasibility and effectiveness of the theoretical model, thereby suppressing torque fluctuations and improving the stability of the vehicle. Finally, the development direction of the key technology of torque ripple suppression for four-wheel in-wheel motor-driven electric vehicles has been prospected.

Type of Medium: Online Resource

ISSN: 1872-2121

URL: Article

DOI: 10.2174/1872212116666220318094812

Language: English

Publisher: Bentham Science Publishers Ltd.

Publication Date: 2023

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