Slip slope change detection based on active drive force excitation

Author:

Fichtinger Andreas1,Edelmann Johannes1ORCID,Plöchl Manfred1,Höll Manuel2,Unterreiner Michael3

Affiliation:

1. TU Wien, Institute of Mechanics and Mechatronics, Technical Dynamics and Vehicle System Dynamics, Vienna, Austria

2. Dr. Ing. h.c. F. Porsche AG, Weissach, Germany

3. CARIAD SE, Mönsheim, Germany

Abstract

Identification of the available friction potential is crucial for road safety but difficult, in particular at normal driving. This paper aims to contribute by presenting an effect-based method for slip slope change detection related to friction potential changes at all wheel-drive vehicles applying active drive force excitation. The proposed estimation approach relies above all on the wheel speeds and the axle/wheel drive forces of the front and rear axle. Different types of periodic active drive force excitation that are superimposed to the drive force requested by the driver while maintaining the desired level of speed or acceleration are investigated w.r.t. the availability of the estimates and overall effectiveness of the estimator. Vehicle tests are performed to evaluate theoretical results and the (co-)driver’s perception of the active drive force excitation. Results from both the simulation study and vehicle tests show that the proposed method allows to reliably estimate slip slope changes at all-wheel drive vehicles in driving conditions with low levels of drive force excitation.

Publisher

SAGE Publications

Subject

Mechanical Engineering,Aerospace Engineering

Reference24 articles.

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3. Andersson M, Bruzelius F, Casselgren J, et al. Road friction estimation, part II. Report, IVSS Project Report, Sweden, November 2010.

4. Svendenius J. Tire modeling and friction estimation. Thesis, Lund University, Sweden, 2007.

5. Design of tyre force excitation for tyre–road friction estimation

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