Federico Bonini scite author profile

Abstract. MotoGP class motorcycles rely on carbon braking system to cope with their incredible acceleration capability and high speed. Hence, assessing the torque generated by the front discs is a key to improve the vehicle performance. As direct measurement of the braking torque is not allowed during races, its value may be estimated through a physical model, using as inputs the brake fluid pressure (monitored on board), the braking system geometry and the friction coefficient (μ). However, the results obtained with this method are highly limited by the knowledge of the instantaneous friction coefficient between the disc rotor and the pads. Since the value of μ is a highly nonlinear function of many variables (namely temperature, pressure and angular velocity of the disc), an analytical model appears impractical to establish. This work aims to implement an innovative algorithm, based on machine learning, for determining μ from the signals regularly available in races, to enable accurate breaking torque computation. The proposed method consists of two main tools. An artificial neural network (ANN) is developed to approximate the unknown function that relates the input variables to μ, while a Kalman filter (KF) is implemented to estimate the real temperature distribution on the disc surface that constitutes one of the most important ANN inputs. The proposed algorithm has been successfully validated with real data collected from extensive tests in racetracks, with a special sensor setup.

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One-Dimensional Thermal Model and Temperature Estimation for a MotoGP Class Motorcycle Carbon Brake

Bonini

Manduchi²,

Mancinelli³

et al. 2022

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Convection Heat Transfer Coefficient Identification and Temperature Estimation for a Motorcycle Carbon Brake Disc Through Unscented Kalman Filter and One-Dimensional Thermal Model

Bonini

Rivola

Martini

2023

Preprint

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Federico Bonini

Estimation of the braking torque for MotoGP class motorcycles with carbon braking systems through machine learning algorithms

Braking torque estimation through machine learning algorithms

One-Dimensional Thermal Model and Temperature Estimation for a MotoGP Class Motorcycle Carbon Brake

Convection Heat Transfer Coefficient Identification and Temperature Estimation for a Motorcycle Carbon Brake Disc Through Unscented Kalman Filter and One-Dimensional Thermal Model

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