This work represents an innovative approach for the control of a Limited Slip Differential (LSD). The limited slip differential transmits the power of the motor to the ground allowing the wheels to spin at different speed. Its task is dividing the transmitted torque between the driven wheels in different driving situations and scenarios. We start with covering the current trends and an introduction to the functionality and impact of a limited slip differential in driving dynamics. Since the current control system for such a differential is very complex and has no ability to adapt itself over time to the changes, this work proposes a new control approach, based on machine learning techniques. Due to the features of the data sets, gathered from real driving situations and are used for the training of the model, the supervised regression-based machine learning methods are selected for evaluation. To be able to choose the right regression method, the data for training the model is closely analyzed and an appropriate model that has the ability of improving the accuracy of a limited slip differential control while ensuring a safe, pleasant and high performance drive is chosen.
A Regression-based Control Approach for Limited Slip Differencial
31.12.2017
Paper
Elektronische Ressource
Englisch
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