Control of Electric Vehicles Using a Model Predictive Controller With Closed Form Solution

Abstract: In this paper, the problem of vehicle stability control using model predictive technique is addressed. The vehicle under consideration is an electric vehicle with an electric motor driving each wheel independently. For the purpose of stability control, it is required that the vehicle tracks a desired yaw rate at all times therefore, extending the linear range of the vehicle dynamics. The desired yaw rate is defined based on vehicle speed, steering wheel angle and road surface friction. The vehic… Show more

“…However, the real‐time version of NMPC must be required [17]. In [18], the integration of a linear model predictive lateral stability control module and slip control system was studied. The required drive torque was calculated in the stability controller and then passed to the slip control module to reduce the error between the desired and actual slip ratios.…”

Model predictive control for integrated longitudinal and lateral stability of electric vehicles with in‐wheel motors

“…However, the real‐time version of NMPC must be required [17]. In [18], the integration of a linear model predictive lateral stability control module and slip control system was studied. The required drive torque was calculated in the stability controller and then passed to the slip control module to reduce the error between the desired and actual slip ratios.…”

Model predictive control for integrated longitudinal and lateral stability of electric vehicles with in‐wheel motors

Handling Delays in Yaw Rate Control of Electric Vehicles Using Model Predictive Control With Experimental Verification