工业4.0 5G应用中基于ai的机器轴承健康状态预测即服务模型

2021 12th International Conference on Information, Intelligence, Systems & Applications (IISA) Pub Date : 2021-07-12 DOI:10.1109/IISA52424.2021.9555538

Dimitrios Batistakis, Apostolos Xenakis, Georgios Papastergiou, P. Chatzimisios, V. Gerogiannis

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引用次数: 0

摘要

机器轴承的智能机器状态监测(MCM)和预测对于高效的工业5G应用非常重要。常见的故障诊断和其他分类方法通常是从原始的时间感知数据中提取时域和频域特征或试图降低噪声。然后在时域中寻找特征，利用统计分类器进行诊断。然而，这些方法在实时状态监测中缺乏特征选择的专业性和鲁棒性。在本文中，我们提出了一种基于深度神经网络(DNN)的预测即服务模型，用于估计工业4.0 5G应用中机器轴承健康状态。该模型利用原始时间序列数据构建三维灰度图像，提高了预测效率。本文还对模型的预测和分类能力进行了测试和评价。

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An AI-based Prediction-as-a-Service Model for Estimating Machine Bearing Health Status in Industry 4.0 5G Applications

Intelligent Machine Condition Monitoring (MCM) and Prediction for machine bearings is very important for efficient Industrial 5G applications. Common fault diagnosis and other classification methods usually extract time domain and frequency features or try to decrease noise from raw time sensory data. Afterwards, features are sought in time domain and statistical classifiers can be applied do the diagnosis. However, these methods suffer from expertise of feature selection and robustness in real time condition monitoring. In this paper, we present a prediction-as-a-service model for estimating machine bearing health status in industry 4.0 5G applications based on Deep Neural Networks (DNN). The proposed model constructs 3D grayscale images from raw time series data and performs prediction more efficiently. The paper also presents testing and evaluation of the model’s prediction and categorization capacity.

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2021 12th International Conference on Information, Intelligence, Systems & Applications (IISA)

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