基于低功耗无线加速度计的带锯片磨损检测系统

M. Magno, E. Popovici, Alessandro Bravin, Antonio Libri, M. Storace, L. Benini
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引用次数: 3

摘要

本文提供了一个框架,以节省能源和降低一些今天的工业机械的运行成本。低成本、低功耗的无线传感器网络是一种新型的工具监控方法,可以节省能源并保持对工具的监控。刀具磨损降低了制造过程中的产品质量,也可能对健康和使用安全产生影响。因此,需要在线监测刀具磨损值,以防止机床质量下降。不幸的是,没有直接的在线测量工具磨损的方法,这也是非常低的成本。本文提出了一种低功耗、低成本的基于加速度计的带锯片磨损检测系统。该算法采用简单的机载数据处理方法,对叶片状态进行特征提取和分类。节点的低功耗设计、机载处理和唤醒无线电功能显著降低了节点的无线通信和功耗。实验结果表明,该算法的准确率高达100%,且功耗低。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Low-power wireless accelerometer-based system for wear detection of bandsaw blades
The paper provides a framework to save energy and reduce the operative cost of some of today's industrial machinery. Low cost and low power wireless sensor networks is a novel approach to monitoring the tools in order to save energy and keep the tools monitored. Cutting tool wear degrades the product quality in manufacturing processes and also could have implications in health and safety of use. Monitoring tool wear value online is therefore needed to prevent degradation in machine quality. Unfortunately there is no direct way of measuring the tool wear online which is also very low cost. In this work is presented a low power and low cost accelerometer-based system for wear detection of bandsaw blade. The algorithm uses a simple data processing directly on board that can extract features and perform a classification on the state of the blade. Low power design of the node, on board processing and wake up radio capabilities reduce the wireless communication and the power consumption of the node significantly. Experimental results show the high accuracy, up to 100%, of the algorithm and the low power of the proposed approach.
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