Blended Regenerative Anti-Lock Braking System and Electronic Wedge Brake Coordinate Control Ensuring Maximal Energy Recovery and Stability of All-Wheel-Motor-Drive Electric Vehicles-Reference-Cited by-同舟云学术

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Blended Regenerative Anti-Lock Braking System and Electronic Wedge Brake Coordinate Control Ensuring Maximal Energy Recovery and Stability of All-Wheel-Motor-Drive Electric Vehicles

Published:2023 Issue:03 Volume:13 Page:465-495
ISSN:2160-0473
Container-title:Journal of Transportation Technologies
language:
Short-container-title:JTTs

Author:

Jneid Mahmoud Said,Harth Péter

Publisher

Scientific Research Publishing, Inc.

Subject

General Medicine

Reference66 articles.

1. Novel regenerative braking method for transient torsional oscillation suppression of planetary-gear electrical powertrain

2. Model Predictive Control of Wheel Slip Towards Antilock Brake System Using Convex optimization

3. Integrated Braking and Traction Torque Vectoring Control Based on Vehicle Yaw Rate for Stability Improvement of All-Wheel-Drive Electric Vehicles

4. Said Jneid, M. and Harth, P. (2023) Integrated Torque Vectoring Control Using Vehicle Yaw Rate and Sideslip Angle for Improving Steering and Stability of All off-Wheel-Motor Drive Electric Vehicles, Forthcoming..

5. Four-wheel independent brake control to limit tire slip under unknown road conditions

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