Due to the great success of Bosch Engineering’s nonlinear model based lateral dynamics controller Integrated Vehicle Dynamics Control (IVC), the concept has now been expanded to traction control systems. Based on the method of exact linearization, a feedforward algorithm is presented. This is done by taking the nonlinearities of tire behavior with combined lateral and longitudinal slip conditions into account. Asymptotic stability of the closed loop is established using a model based linear feedback controller, enhanced by gain scheduling and anti-windup algorithms as well as optimized initial condition values. Damping and robustness properties are investigated by applying frequency domain methods. In order to reduce communication delay, the engine ECU is integrated into the controller computations. By integrating the active differential into the traction control algorithm a multivariable controller is established. The performance of the proposed control algorithm is demonstrated by means of road tests that are carried out with a rear wheel driven sports car under high-μ conditions.
[1]
Andreas Zimmermann,et al.
Integrierte Traktionsregelung mit modellbasierter Vorsteuerung
,
2019
.
[2]
A. Isidori.
Nonlinear Control Systems
,
1985
.
[3]
Jyotishman Ghosh,et al.
ITC – model-based feed forward traction control
,
2019
.
[4]
Thomas Walter,et al.
Integrated Vehicle Dynamics Control - an optimized approach for linking multiple chassis actuators
,
2014
.
[5]
H B Pacejka.
Tyre Models for Vehicle Dynamics Analysis; proceedings 1st International Colloquium on Tyre Models for Vehicle Dynamics Analysis held in Delft, The Netherlands, October 21-22, 1991
,
1993
.
[6]
Jürgen Adamy,et al.
Nichtlineare Systeme und Regelungen
,
2014
.
[7]
H.-J. Schöpf,et al.
ASR Acceleration Skid Control - A Further Contribution Towards Increasing The Active Safety Of Daimler-Benz Vehicles
,
1988
.