Title :
Comparison of braking performance by electro-hydraulic ABS and motor torque control for in-wheel electric vehicle
Author :
Sungyeon Ko ; Chulho Song ; Jeongman Park ; Jiweon Ko ; Inbeom Yang ; Hyunsoo Kim
Author_Institution :
Sch. of Mech. Eng., Sungkyunkwan Univ., Suwon, South Korea
Abstract :
In this study, a slip control algorithm using motor torque control during the braking of the in-wheel electric vehicle was proposed and an anti-lock brake system (ABS) simulator was developed on the basis of the test results for electro-hydraulic ABS. The slip control algorithm using motor torque control limits the in-wheel motor torque according to road friction coefficient and slip ratio while the ABS prevents locking of the wheel by lowering or raising the brake pressure through solenoid valve control. A MATLAB/Simulink model and a CarSim vehicle model were developed, and the motor torque control and ABS simulator were applied to the MATLAB/Simulink-CarSim co-simulator and compared braking performance.
Keywords :
braking; electric vehicles; electrohydraulic control equipment; machine control; torque control; ABS simulator; CarSim vehicle model; MATLAB-Simulink model; MATLAB-Simulink-CarSim cosimulator; antilock brake system simulator; brake pressure; braking performance; electrohydraulic ABS; in-wheel electric vehicle; in-wheel motor torque; motor torque control; road friction coefficient; slip control algorithm; solenoid valve control; Force; Friction; Roads; Torque control; Traction motors; Vehicles; Wheels; electro-hydraulic ABS; in-wheel; motor torque control;
Conference_Titel :
Electric Vehicle Symposium and Exhibition (EVS27), 2013 World
Conference_Location :
Barcelona
DOI :
10.1109/EVS.2013.6914910
