Through hydraulic machinery characteristic analysis of embedded mobile node, the situation of hydraulic trans- mission system could be accurately predicted。 The cav- ities B, C, and D would be adaptively adjusted。 The transmission system always maintain the best working condition based on the above issues, which would im- prove work efficiency and load capacity。
5 Conclusions
The analysis scheme of mechanical hydraulic character- istics was proposed based on lightweight crowd data in mobile embedded devices to solve the mechanical hy- draulic equipment control and improve the efficiency of mechanical work。 Firstly, a population intellectual light- weight data-driven analysis model was proposed with the mobile embedded machinery and equipment, which was used to solve the hydraulic mechanical properties of nonlinear filtering of coarse-grained service detection。 Secondly, we studied the engine of the mechanical equipment with the hydraulic control module through the harmonic filter。 Then, we designed the mobile embedded node by considering the output array of hydraulic characteristics and the transmission power。 Based on the above basis, the analysis scheme of mech- anical hydraulic characteristics was proposed based on lightweight crowd data in mobile embedded devices。 Based on the experiment evaluation result, the hydraulic analysis performance and mechanical equipment sup- port ability of the proposed scheme is better than the static node scheme and without analysis state。
摘要为了提高机械的效率和机械设备对液压的控制,分析了液压基于轻量级数据在移动嵌入式设备中的特性,提出了一个轻量级数据的驱动模型来解决液压机械性能的非线性滤波与粗粒度的检测。机械设备的发动机与液压控制模块通过谐波滤波器联接,基于移动嵌入式节点的液压特性和传动功率的输出数组,分析机械液压的特点,提出了轻量级数据的移动嵌入式设备的方案。实验结果得出液压性能和机械设备支持的方案优于静态节点方案。
关键词
机械液压特性,嵌入式系统,轻量级数据,机械的液压驱动
1。 介绍
机械设备中的液压控制技术已经被广泛得应用于机械的故障勘察,稳健性保护和其他领域【1】,那么如何确定机械液压机械传动系统结构的检测方案呢【2】?根据机械条件设置机械液压控制系统和参数匹配是关键问题之一。在机械液压控制模块的设计和检测节点如何结合机械速度和机械设备有效工作负荷成为了限制了机械功率的主要因素【3】。
鉴于上述问题, 取得了一系列研究成果。Pattison et al。【4】用一个火山碎屑流模型再一次来提出更合适的流体流动边界条件的恢复渗透系数。使用在线监测系统对测量机械液压高压电路断路器的特点【5】进行了测试。使用泵和阀门的液压挖掘机【6】已经和以米分隔的电路相结合。Bing et al。【7】提出并模拟了SF6高压断路器液压操作机制的耦合模型。
文章【8】的作者提出了一个能够改变系统的深入理解。一篇基于迭代卡尔曼滤波算法的文章【9】被提出来以确定模型参数。文章【10】的作者提出了一个快速的方法来计算由于安装各种便利的器械在船的海水冷却泵上所节约下的能源。配好的系统计划安装一个电源转换器来减少组件的数量【11】。文章【12】的作者研究了传感器的磁滞模型来支持向量机的分析。
然而以上的研究结果无视了机械中液压的特性和系统工作效率。我们提出了一个移动嵌入式基于轻量级数据的液压机械设备。
2。 轻量级数据驱动模型
液压在移动嵌入式设备中特性英文文献和中文翻译(5):http://www.youerw.com/fanyi/lunwen_81801.html