Electronic Differential System Based on Adaptive SMC Combined with QP for 4WID Electric Vehicles-Reference-Cited by-同舟云学术

Electronic Differential System Based on Adaptive SMC Combined with QP for 4WID Electric Vehicles

Published:2021-08-20 Issue:3 Volume:12 Page:126
ISSN:2032-6653
Container-title:World Electric Vehicle Journal
language:en
Short-container-title:WEVJ

Author:

Zhang Wenjun,Liu Zhuxing,Chen Qingzhang

Abstract

This study investigates an adaptive differential control system for 4WID (4-wheel-independent-drive) electric vehicles. The novel adaptive system will maneuver the independently operating hub motors without the help of any conventional steering mechanism. The control system consists of a hierarchical structure to confront the vehicle stability condition, which includes a novel SMC (sliding mode control) with a fuzzy algorithm parameter modification to achieve the required virtual control signal at the top level, and a quadratic programming-based torque allocation algorithm at the bottom-level controller. The proposed controller was tested through Simulink/Carsim simulation and experiments. All the test cases showed the advantages of the proposed method over some of the currently existing 4WID control strategies.

Publisher

MDPI AG

Subject

Automotive Engineering

Link

https://www.mdpi.com/2032-6653/12/3/126/pdf

Reference20 articles.

1. Research on an equal power allocation electronic differential system for electric vehicle with dual-wheeled-motor front drive based on a wavelet controller

2. Coupling Control Strategy of Force and Displacement for Electric Differential Power Steering System of Electric Vehicle With Motorized Wheels

3. Vertical vibration control of an in‐wheel motor‐driven electric vehicle using an in‐wheel active vibration system

4. Study on electronic differential control of four wheel drive in−wheel motor electric vehicle;Duan;Mach. Tool Hydraul.,2015

5. Varying Charge Voltage in the Steps Control Method of ABS for In-Wheel Motors Driven Electric Vehicles Based on an Improved LQG Scheme

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