Improvement of Traction Through mMPC in Linear Vehicle Dynamics Based on Electrohydraulic Dry-Clutch

Abstract

Today's several algorithms are currently man- aged by the control units in passenger cars to deliver higher comfort level to vehicle driver and passengers. One route to smoother longitudinal dynamics as well as deliver higher safety is provided by the engine torque limiters and traction control. The drawback of such filters is that they bring in time delays which may give to the driver the feeling that the vehicle engine does not respond in a prompt way to her/his demand (1). On the other hand, recent highly-supercharged engines suffer for inadequate engine torque rise when setting the vehicle in motion from stationary with fast accelerator request: this behaviour is related to fueling response, fuel-air ratio control, soot emissions regulation, etc. The goal of this paper is to design a feedback controller based on multiple model predictive controller (mMPC) to manage the clutch opening/closing operations in a dry-clutch automated man- ualtransmissionarchitecture.Thecontrolleraimsatensuring a comfortable vehicle launch by assuring a reduced engage- ment time and by maintaining the wheel slip at a desired value to have the maximum traction force. The simulations have been carried out by considering the engine dynamics as well as the delay ensuing engine torque build-up together to an imposed wheel slip in fast launch manoeuvre to prove the effectiveness of the proposed clutch control strategy and encourage the development of real-time routines for the test- ing in real-time environment.