Journal ArticleDOI
The magic formula tyre model
Hans B. Pacejka,Egbert Bakker +1 more
TLDR
The Magic Formula model as mentioned in this paper provides a set of mathematical formulae from which the forces and moment acting from road to tyre can be calculated at longitudinal, lateral and camber slip conditions, which may occur simultaneously.Abstract:
An account is given of the latest version 3 of the Magic Formula tyre model. The model provides a set of mathematical formulae from which the forces and moment acting from road to tyre can be calculated at longitudinal, lateral and camber slip conditions, which may occur simultaneously. The model aims at an accurate description of measured steady-state tyre behaviour. The coefficients of the basic formula represent typifying quantities of the tyre characteristic. By selecting proper values, the characteristics for either side force, aligning torque or fore and aft force can be obtained. The new version of the model contains physically based formulations to avoid the introduction of correction factors. Double-sided, possibly non-symmetric pure slip curves are employed as the basis for combined slip calculations. Suggestions are given to estimate the driving part of the longitudinal slip curve and to represent the characteristic at rolling backwards.read more
Citations
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Proceedings ArticleDOI
Cautious NMPC with Gaussian Process Dynamics for Autonomous Miniature Race Cars
TL;DR: An adaptive high performance control method for autonomous miniature race cars that makes use of a Gaussian Process and takes residual model uncertainty into account through a chance constrained formulation, enabling a real-time implementable controller.
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Model predictive regenerative braking control for lightweight electric vehicles with in-wheel motors:
Xiaoyu Huang,Junmin Wang +1 more
TL;DR: In this article, a nonlinear model predictive controller for regenerative braking control of lightweight electric vehicles equipped with in-wheel motors is presented, which is based on the same approach as the one described in this paper.
Proceedings ArticleDOI
Tire model for simulations of vehicle motion on high and low friction road surfaces
TL;DR: Efforts are underway to incorporate the tire model as a force element subroutine into a DADS model of a HMMWV to conduct driving simulations on dry, snow and ice covered road surfaces.
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Comparing Fuzzy and Intelligent PI Controllers in Stop-and-Go Manoeuvres
TL;DR: This work describes the design, tuning, and evaluation of the controllers performing actions on the longitudinal control of a car-the throttle and brake pedals-to accomplish stop-and-go manoeuvres and tries to provide an answer to an as yet unsolved topic in the automotive sector-stop- and-go control in urban environments at very low speeds.
Journal ArticleDOI
A Personalizable Driver Steering Model Capable of Predicting Driver Behaviors in Vehicle Collision Avoidance Maneuvers
TL;DR: A combined driver model is presented that is able to not only identify different individual driver behaviors, but also predict a driver's behavior in rare vehicle maneuvers such as collision avoidance (CA) based on his/her daily driving data.
References
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Proceedings ArticleDOI
A New Tire Model with an Application in Vehicle Dynamics Studies
Journal ArticleDOI
Shear Force Development by Pneumatic Tyres in Steady State Conditions: A Review of Modelling Aspects
Hans B. Pacejka,Robin S. Sharp +1 more
TL;DR: In this article, a review of the generation of shear forces by pneumatic tyres under steady state conditions is presented, in a practical context, through reference to the uses to which models may be put by the vehicle dynamicist and the tyre designer.
Determination of magic tyre model parameters
Jjm Van Oosten,E. Bakker +1 more
TL;DR: In this paper, a set of MAGIC TYRE FORMULA PARAMETERS out of the DELFT TYRE MEASUREMENT TRAILER is compared to the "MONTE CARLO" version of the model.
Determination of Magic Formula tyre model parameters
J.J.M. van Oosten,E. Bakker +1 more
TL;DR: In this article, the Magic Formula Tyre Model is compared with the Monte Carlo version of the model and the comparison between the two versions shows that the latest version results in better fitting results especially for camber influences and (even more important) in an improvement on the fitting process.