Examining a generic streaming architecture for smart manufacturing's Big data processing in Anomaly detection: A review and a proposal
Journal Title: International Journal of Experimental Research and Review - Year 2023, Vol 30, Issue 1
Abstract
The smart manufacturing industry has witnessed a rapid increase in data generation due to the integration of sensors, IoT devices, and other advanced technologies. With this huge amount of data, the need for efficient data processing methods becomes critical for identifying anomalies in real-time. With the rise of Industry 4.0 practices, digitally enabled manufacturing units are shifting their focus towards Smart Manufacturing paradigm for better productivity, throughput and increased business volume. Traditionally digital manufacturing units have considered different AI approaches like Neural Network, Statistical Methods, Deep Learning etc. to detect and predict anomalies in their production lines. But with the Smart Manufacturing ecosystem, a manufacturing unit must integrate manufacturing intelligence in real-time across entire production lines through sensor data of IOT devices. Hence the traditional anomaly detection systems fall short to respond well, under the changed scenario, where large volumes of unstructured and varied types of data are being generated at high velocity, to be processed at (soft) real time. The article reviews the current state-of-the-art in big data processing for anomaly detection in smart manufacturing. The review covers various aspects such as data collection, data processing, anomaly detection, and real-time monitoring. The current paper also proposes a novel stateful data streaming computational model for big data processing in smart manufacturing units which conceptually lays the foundation on top of which any discrete anomaly detection engine would be able to work. The proposed architecture has several benefits, including its ability to handle the large volume, velocity, and variety of data generated in smart manufacturing. The architecture can be applied to various smart manufacturing applications, including predictive maintenance, quality control, and supply chain optimization. It is expected that this proposed architecture will pave the way for the development of more efficient and effective smart manufacturing systems in the future.
Authors and Affiliations
Milton Samadder, Anup Kumar Barman, Alok Kumar Roy
Keywords
Related Articles
- EP ID EP715443
- DOI https://doi.org/10.52756/ijerr.2023.v30.019
- Views 64
- Downloads 0
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