A new desired articulation angle for directional control of articulated vehicles

In articulated vehicles, one of the main driver’s intentions is that the trailer unit closely follows the path of the tractor unit. However, this expectation is not satisfied even at low speeds. Therefore, it is necessary to develop an appropriate method to reduce or even to eliminate the path track...

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Veröffentlicht in:Proceedings of the Institution of Mechanical Engineers. Part K, Journal of multi-body dynamics Journal of multi-body dynamics, 2012-12, Vol.226 (4), p.298-314
Hauptverfasser: Oreh, SH Tabatabaei, Kazemi, R, Azadi, S
Format: Artikel
Sprache:eng
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Zusammenfassung:In articulated vehicles, one of the main driver’s intentions is that the trailer unit closely follows the path of the tractor unit. However, this expectation is not satisfied even at low speeds. Therefore, it is necessary to develop an appropriate method to reduce or even to eliminate the path tracking error. This article proposes a new desired articulation angle for directional control of the articulated vehicles. The proposed reference value tracking ensures that the rear end of the trailer unit closely follows the trajectory of the fifth wheel. Achieving this goal, a tracking error based on the kinematics of the planar motion of the articulated vehicle is defined. Eliminating the tracking error provides a proper determination of the desired articulation angle between the tractor and trailer unit. A controller designed based on the fuzzy logic theory tracks the proposed reference articulation angle by steering the trailer wheels. To evaluate the effectiveness of the proposed method on both low-speed and high-speed maneuvers, simulations of two maneuvers including low-speed 90° turn and high-speed lane change maneuvers are carried out. The simulation results prove the significant effects of the proposed method on enhancing path following performance.
ISSN:1464-4193
2041-3068
DOI:10.1177/1464419312445426