Vehicle steering, braking and acceleration are subject to friction forces arising from contact of the tyres with the road surface. The contact force is both enabling and limiting. The ratio of the contact friction to the force of the tyres pressing on the road surface is described as the coefficient of friction. The maximum coefficient of friction for different surfaces characterizes the extent of tyre grip. Collision avoidance and collision mitigation systems require information on tyre grip so as to accurately calculate braking distances and evasive manoeuvres. Estimating road slipperiness (skid resistance) during driving has however proven difficult. This dissertation discusses estimating the maximum coefficient of friction (herein referred to as the friction potential) together with determining road conditions. Both estimations are based on multi-sensor data fusion; that is, combining data from several sensors. The presented sensor data fusion utilizes various sensors from three main classes: 1) environmental sensors, 2) sensors measuring vehicle dynamics and 3) experimental tyre sensors. This work concentrates particularly on methods for combining measurements of vehicle dynamics with environmental sensor readings; for example, wheel speed signals are linked to readings about ice, snow or water on the road. The methods were incorporated into a prototype passenger car implementation, where testing yielded a reliable estimate of friction potential for approximately 90% of driving time. The estimate of friction potential was then within 0.2 of reference values measured in braking tests. These results encapsulate a proof of concept on asphalt roads in some wet, snowy, icy and dry road conditions. The advantages of friction estimation for collision avoidance and collision mitigation systems are analysed using mainly simulations. A correct initial estimate of the friction potential enables the systems to improve traffic safety efficiently also in slippery road conditions. However, the range of available environmental sensors does not cover long braking distances. Together with the simulations, the work introduces a new method for collision avoidance calculations and timing the activation of collision mitigation. The method is based on a large number of precalculated vehicle trajectories.


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    Title :

    Sensor Data Fusion Based Estimation of Tyre-Road Friction to Enhance Collision Avoidance


    Contributors:

    Published in:

    Publication date :

    2010


    Size :

    209 Seiten, 72 Bilder, 16 Tabellen, 65 Quellen




    Type of media :

    Theses


    Type of material :

    Print


    Language :

    English




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