Optimal Control for Electric Vehicle Stabilization
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Date
2010Author
Găiceanu, Marian
Voncilă, Elena
Bihosu, Răzvan
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This main objective of the paper is to stabilize an electric vehicle in optimal
manner to a step lane change maneuver. To define the mathematical model of the
vehicle, the rigid body moving on a plane is taken into account. An optimal lane
keeping controller delivers the adequate angles in order to stabilize the vehicle’s
trajectory in an optimal way. Two degree of freedom linear bicycle model is adopted as
vehicle model, consisting of lateral and yaw motion equations. The proposed control
maintains the lateral stability by taking the feedback information from the vehicle
transducers. In this way only the lateral vehicle’s dynamics are enough to considerate.
Based on the obtained linear mathematical model the quadratic optimal control is
designed in order to maintain the lateral stability of the electric vehicle. The numerical
simulation results demonstrate the feasibility of the proposed solution.