一种利用传感器原始数据预测铣床机床状态的数据处理管道。

IF 0.8 Q4 ENGINEERING, MANUFACTURING
M Ferguson, R Bhinge, J Park, Y T Lee, K H Law
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引用次数: 2

摘要

随着传感器和计算技术的最新进展,现在可以使用实时机器学习技术来监控制造机器的状态。然而,从原始传感器数据中做出准确的预测仍然是一项艰巨的挑战。在这项工作中,开发了一个数据处理管道,利用原始传感器数据来预测铣床的状态。加速度和音频时间序列传感器数据被聚合成与计算机数控(CNC)铣床的单个切割操作相对应的块。每个数据块都使用众所周知的计算效率高的信号处理技术进行预处理。提出了一种新的核函数来近似时间序列数据预处理块之间的协方差。训练了几个高斯过程回归模型来预测工具状态,每个模型都具有不同的协方差核函数。使用新的协方差函数的模型优于使用更常用的协方差函数的模型。在可能的情况下,使用预测模型标记语言(Predictive Model Markup Language, PMML)表示训练好的模型,以演示如何以标准化形式表示管道的预测模型组件。结果表明,该工具状态模型是准确的,特别是在预测轻磨损工具的状态时。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

A Data Processing Pipeline for Prediction of Milling Machine Tool Condition from Raw Sensor Data.

A Data Processing Pipeline for Prediction of Milling Machine Tool Condition from Raw Sensor Data.

A Data Processing Pipeline for Prediction of Milling Machine Tool Condition from Raw Sensor Data.

A Data Processing Pipeline for Prediction of Milling Machine Tool Condition from Raw Sensor Data.

With recent advances in sensor and computing technology, it is now possible to use real-time machine learning techniques to monitor the state of manufacturing machines. However, making accurate predictions from raw sensor data is still a difficult challenge. In this work, a data processing pipeline is developed to predict the condition of a milling machine tool using raw sensor data. Acceleration and audio time series sensor data is aggregated into blocks that correspond to the individual cutting operations of the Computer Numerical Control (CNC) milling machine. Each block of data is preprocessed using well-known and computationally efficient signal processing techniques. A novel kernel function is proposed to approximate the covariance between preprocessed blocks of time series data. Several Gaussian process regression models are trained to predict tool condition, each with a different covariance kernel function. The model with the novel covariance function outperforms the models that use more common covariance functions. The trained models are expressed using the Predictive Model Markup Language (PMML), where possible, to demonstrate how the predictive model component of the pipeline can be represented in a standardized form. The tool condition model is shown to be accurate, especially when predicting the condition of lightly worn tools.

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来源期刊
Smart and Sustainable Manufacturing Systems
Smart and Sustainable Manufacturing Systems ENGINEERING, MANUFACTURING-
CiteScore
2.50
自引率
0.00%
发文量
17
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