Mohamed Elaraby scite author profile

In this paper, an advanced control technique that can be implemented in hard emergency situations of vehicles is introduced. This technique suggests integration between Active Front Steering (AFS) and Active Roll Moment Control (ARMC) systems in order to enhance the vehicle controllability. For this purpose, the AFS system applies a robust sliding mode controller (SMC) that is designed to in¯uence the steering input of the driver by adding a correction steering angle for maintaining the vehicle yaw rate under control all the time. The AFS system is then called active-correction steering control. The ARMC system is designed to differentiate the front and rear axles' vertical suspension forces in order to alter the vehicle yaw rate and to eliminate the vehicle roll motion as well. Moreover, the operation of the SMC is based on tracking the behavior of a nonlinear 2-wheel model of 2-DOF used as a reference model. The 2-wheel model incorporates real tire characteristics, which can be inferred by the use of trained neural networks. The results clearly demonstrate the enhanced characteristics of the proposed control technique. The SMC with the assistance of the ARMC provides less correction of the steering angle and accordingly reduces the possibility of occurrence of the saturation phenomenon that is likely to take place in the operation of the SMC systems.

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A novel Gray-Scale spatial exploitation learning Net for COVID-19 by crawling Internet resources

Elaraby

Elzeki

Shams

et al. 2022

Biomedical Signal Processing and Control

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A new architecture for improving focused crawling using deep neural network

Elaraby

Abuelenin

Moftah

et al. 2019

IFS

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Mohamed Elaraby

Advanced Ground Vehicle Suspension Systems - A Classified Bibliography

Suboptimal Control Design of Active and Passive Suspensions Based on a Full Car Model

Handling Capabilities of Vehicles in Emergencies Using Coordinated AFS and ARMC Systems

A novel Gray-Scale spatial exploitation learning Net for COVID-19 by crawling Internet resources

A new architecture for improving focused crawling using deep neural network

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