Abstract
As the best integration point to integrate information technology and manufacturing technology, the digital factory is the basis for the intelligent transformation of manufacturing companies. This article will discuss how to build it and discuss the digital world. When companies develop, integrate, share, apply and update different knowledge, create more added value and benefits, and make significant contributions to the sustainable development of knowledge management companies, they pay more and more attention to improving their own competitiveness. Therefore, this article proposes a method to improve knowledge management based on the actual situation of the enterprise, and proposes a strategy for recent development. In the knowledge management applications of the digital factory, the high-speed transmission and processing of data becomes crucial. But the traditional network technology has been unable to meet the increasing demand for data. This paper explores the potential application and advantages of optical network transmission based on 5G network in the application of knowledge management in digital factory, studies the optical network transmission technology based on 5G network, and discusses its feasibility and advantages in the application of knowledge management in digital factory. The study found that the optical network transmission technology based on 5G network can greatly improve the data transmission speed and bandwidth, and meet the needs of digital factories for efficient data transmission. Optical network transmission technology also has the advantages of low latency, high reliability and low energy consumption.
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L.Z. has done the first version, L.Z. and R.Y. has done the simulations. All authors have contributed to the paper’s analysis, discussion, writing, and revision.
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Zifei, L., Zoujian, L. & Yuheng, R. Application of optical network transmission based on 5G network in knowledge management of digital factories. Opt Quant Electron 56, 110 (2024). https://doi.org/10.1007/s11082-023-05720-w
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DOI: https://doi.org/10.1007/s11082-023-05720-w