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首页> 外文期刊>Abstract and applied analysis >Observer Based Traction/Braking Control Design for High Speed Trains Considering Adhesion Nonlinearity
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Observer Based Traction/Braking Control Design for High Speed Trains Considering Adhesion Nonlinearity

机译:考虑粘附力非线性的基于观测器的高速列车牵引/制动控制设计

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摘要

Train traction/braking control, one of the key enabling technologies for automatic train operation, literally takes its action through adhesion force. However, adhesion coefficient of high speed train (HST) is uncertain in general because it varies with wheel-rail surface condition and running speed; thus, it is extremely difficult to be measured, which makes traction/braking control design and implementation of HSTs greatly challenging. In this work, force observers are applied to estimate the adhesion force or/and the resistance, based on which simple traction/braking control schemes are established under the consideration of actual wheel-rail adhesion condition. It is shown that the proposed controllers have simple structure and can be easily implemented from real applications. Numerical simulation also validates the effectiveness of the proposed control scheme.
机译:列车牵引/制动控制是自动列车运行的关键使能技术之一,实际上是通过附着力发挥作用的。但是,高速列车(HST)的附着系数通常不确定,因为它会随着轮轨表面状况和行驶速度而变化。因此,很难进行测量,这使得牵引力/制动控制设计和HST的实施具有很大的挑战性。在这项工作中,力观察者被用于估计附着力或/和阻力,基于此,在考虑实际轮轨附着条件的基础上,建立了简单的牵引/制动控制方案。结果表明,所提出的控制器结构简单,可以从实际应用中轻松实现。数值模拟也验证了所提出的控制方案的有效性。

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