牵引系统防滑控制的硬件在环仿真验证

J. Verhille, A. Bouscayrol, P. Barre, J. Hautier
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引用次数: 8

摘要

本文提出了一种新的地铁自动牵引系统防滑控制方法。采用能量宏观表示法对整个牵引系统进行了图形化和物理化描述。在此基础上推导出一种基于逆的控制方法。这种控制方案强调了不同的控制可能性。在此基础上推导了一种新的基于逆控制的防滑策略。在实际车辆上实施之前,新控制在降低功率的实验装置上进行了验证。因此,在与实际车辆相同的条件下,使用硬件在环仿真来评估该控制的性能。给出了实验结果。
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Validation of anti-slip control for traction system using Hardware-In-the-Loop simulation
In this paper a new-anti-slip control is proposed for the traction system of an automatic subway. Energetic macroscopic representation was used to proposed a graphical and physical description of the whole traction system. An inversion based control is deduced from this graphical description. This control scheme highlights different possibilities of control. A new anti-slip strategy is then deduced from the inversion-based control. Before an implementation on an actual vehicle, the new control is validated on a reduced power experimental set-up. A hardware-in-the-loop simulation is thus used to asses performance of this control in the same conditions as in the actual vehicle. Experimental results are provided.
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