本文从机械装置和液压伺服原理两方面讨论了柔顺功能的实现。
The paper discusses the realization of Pliancy function from two respects of mechanical apparatus and hydraulic servo fundamentals.
提出一种具有神经网络补偿的状态反馈控制方法并用于液压伺服位置控制系统。
This paper proposes a state feedback control strategy with a neural network compensator, which is applied in a hydraulic position servo system.
本文以PROFIBUS总线为工具,把液压伺服系统作为研究对象,提出了基于PROFIBUS现场总线的数字式自诊断电液伺服系统的研究方案。
This article takes PROFIBUS as tool, USES the hydraulic servo system as the research object, and proposes digital self-diagnosis electro-hydraulic servo system research plan based on PROFIBUS.
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