Abstract
Featured Application: The presented Magic Formula model of a bicycle tire for cargo trailers can be used for the mathematical modeling and simulation of a bicycle trailer or vehicle without camber angle. Further, the model can be used in linearized or original form for the implementation of a vehicle dynamics controller on an ECU to consider the tire behavior. In the field of inner-city cargo transportation, solutions such as electrified cargo trailers are increasingly being used. To provide an intelligent drivetrain control system that improves driving dynamics and enables safety, it is necessary to know the characteristics of the trailer system. This includes the behavior of the tires. Existing investigations of bicycle tires focus on camber-angle-dependent models. However, in most trailers, a rigid mounting of the tires without camber is used. For this reason, a bicycle tire model is created within the scope of this study using real measurement data that represent a 20 in tire with typical wheel loads and without camber. The measurements were collected with the mobile tire measurement laboratory of the Bern University of Applied Sciences on an asphalt test site under real conditions. Crosstalk occurring in the measurement hub during the data collection was successfully corrected using a matrix method. With help of the so-called Magic Formula, a tire model was created that can be used for driving dynamics simulations and controller design.
Original language | English |
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Article number | 2542 |
Journal | Applied Sciences (Switzerland) |
Volume | 13 |
Issue number | 4 |
DOIs | |
State | Published - Feb 2023 |
Keywords
- bicycle tires
- cargo trailer
- crosstalk compensation
- cyclist safety
- last mile
- magic formula
- micromobility
- simulation
- tire model
- vehicle dynamics