Mohd Sofian Basrah scite author profile

Mohd Sofian Basrah

3Publications

34Citation Statements Received

37Citation Statements Given

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Affiliations

Cranfield University

Publications

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Wheel slip control with torque blending using linear and nonlinear model predictive control

Basrah

Siampis

Velenis

et al. 2017

Vehicle System Dynamics

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Modern Hybrid Electric Vehicles employ electric braking to recuperate energy during deceleration. However, currently Anti-lock Braking System (ABS) functionality is delivered solely by friction brakes. Hence regenerative braking is typically deactivated at a low deceleration threshold in case high slip develops at the wheels and ABS activation is required. If blending of friction and electric braking can be achieved during ABS events, there would be no need to impose conservative thresholds for deactivation of regenerative braking and the recuperation capacity of the vehicle would increase significantly. In addition, electric actuators are typically significantly faster responding and would deliver better control of wheel slip than friction brakes. In this work we present a control strategy for ABS on a fully electric vehicle with each wheel independently driven by an electric machine and friction brake independently applied at each wheel. In particular we develop linear and nonlinear model predictive control strategies for optimal performance and enforcement of critical control and state constraints. The capability for real time implementation of these controllers is assessed and their performance is validated in high fidelity simulation.

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Four wheel torque blending for slip control in a hybrid electric vehicle with a single electric machine

Basrah

Velenis

Cao

2015

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Integration of torque blending and slip control using real-time nonlinear model predictive control

Basrah¹,

Siampis²,

Velenis³

et al. 2016

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