Mathematical models simulating the handling behaviour of passenger cars are extensively used at a design stage for evaluating the effects of new structural solutions or control systems. The main source of uncertainty in this type of models lies in the tyre-road interaction, due high nonlinearity. Proper estimation of tyre model parameters is thus of utter importance to obtain reliable results. A methodology aimed at identifying the Magic Formula-Tyre (MF-Tyre) model coefficients of the tyres of an axle based only on the measurements carried out on board vehicle (vehicle sideslip angle, yaw rate, lateral acceleration, speed and steer angle) during standard handling maneuvers (step-steers, double lane chance, etc.) is presented in this paper. The proposed methodology is based on particle filtering technique. Particle filters may become a serious alternative for classic model-based approaches, such as Kalman filters. Results of the identification procedure were first checked through simulations. Then it was applied to experimental data collected on an instrumented passenger-car vehicles.
A Particle Filter Approach for Identifying Tyre Model Parameters From Full-Scale Experimental Tests
SABBIONI, EDOARDO;CHELI, FEDERICO;BRAGHIN, FRANCESCO
2015-01-01
Abstract
Mathematical models simulating the handling behaviour of passenger cars are extensively used at a design stage for evaluating the effects of new structural solutions or control systems. The main source of uncertainty in this type of models lies in the tyre-road interaction, due high nonlinearity. Proper estimation of tyre model parameters is thus of utter importance to obtain reliable results. A methodology aimed at identifying the Magic Formula-Tyre (MF-Tyre) model coefficients of the tyres of an axle based only on the measurements carried out on board vehicle (vehicle sideslip angle, yaw rate, lateral acceleration, speed and steer angle) during standard handling maneuvers (step-steers, double lane chance, etc.) is presented in this paper. The proposed methodology is based on particle filtering technique. Particle filters may become a serious alternative for classic model-based approaches, such as Kalman filters. Results of the identification procedure were first checked through simulations. Then it was applied to experimental data collected on an instrumented passenger-car vehicles.File | Dimensione | Formato | |
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