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Anti-lock braking and traction control concept for all-terrain robotic vehicles

Jan van der Burg, Pierre Blazevic

Year
2002
Citations
21

Abstract

This paper focuses on a new traction control concept for autonomous land-vehicles. This system avoids wheel slip greater than the critical wheel slip S/sub cr/ during acceleration and deceleration. We present an original approach to detecting an excess over S/sub cr/, without knowledge of its actual value, which depends on tire/ground combinations. This approach allows the control system to adapt itself to every kind of terrain. In order to illustrate a potential application of this concept, we present the design of an autonomous all-terrain vehicle, for which this control strategy has been developed. Sensor instrumentation, crucial for system stability, is also discussed.

Keywords

Traction control systemTerrainTraction (geology)Anti-lock braking systemAutomotive engineeringSlip (aerodynamics)Control engineeringComputer scienceTractive forceBraking system

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