A Real-Time Data Monitoring Framework for Predictive Maintenance Based on the Internet of Things

Mudita Uppal, Deepali Gupta, Nitin Goyal, A. Imoize, Arun C. S. Kumar, Stephen Ojo, S. Pani, Yongsung Kim, Jaeun Choi
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引用次数: 5

Abstract

The Internet of Things (IoT) is a platform that manages daily life tasks to establish an interaction between things and humans. One of its applications, the smart office that uses the Internet to monitor electrical appliances and sensor data using an automation system, is presented in this study. Some of the limitations of the existing office automation system are an unfriendly user interface, lack of IoT technology, high cost, or restricted range of wireless transmission. Therefore, this paper presents the design and fabrication of an IoT-based office automation system with a user-friendly smartphone interface. Also, real-time data monitoring is conducted for the predictive maintenance of sensor nodes. This model uses an Arduino Mega 2560 Rev3 microcontroller connected to different appliances and sensors. The data collected from different sensors and appliances are sent to the cloud and accessible to the user on their smartphone despite their location. A sensor fault prediction model based on a machine learning algorithm is proposed in this paper, where the k-nearest neighbors model achieved better performance with 99.63% accuracy, 99.59% F1-score, and 99.67% recall. The performance of both models, i.e., k-nearest neighbors and naive Bayes, was evaluated using different performance metrics such as precision, recall, F1-score, and accuracy. It is a reliable, continuous, and stable automation system that provides safety and convenience to smart office employees and improves their work efficiency while saving resources.
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基于物联网的预测性维护实时数据监控框架
物联网(IoT)是一个管理日常生活任务,建立物与人之间互动的平台。它的应用之一,智能办公室,使用互联网监控电器和传感器数据使用自动化系统,在本研究中提出。现有办公自动化系统的一些局限性是用户界面不友好,缺乏物联网技术,成本高,或无线传输范围有限。因此,本文提出了一种基于物联网的办公自动化系统的设计和制造,该系统具有友好的智能手机界面。对传感器节点进行实时数据监控,进行预测性维护。该模型使用Arduino Mega 2560 Rev3微控制器连接到不同的设备和传感器。从不同的传感器和设备收集的数据被发送到云端,用户可以通过智能手机访问这些数据,尽管他们身处何处。本文提出了一种基于机器学习算法的传感器故障预测模型,其中k近邻模型的准确率为99.63%,f1分数为99.59%,召回率为99.67%。两种模型的性能,即k近邻和朴素贝叶斯,使用不同的性能指标,如精度,召回率,f1分数和准确性进行评估。它是一个可靠、连续、稳定的自动化系统,为智能办公员工提供安全、方便,提高工作效率,节约资源。
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