5G-Ready in the Industrial IoT-Environment (original) (raw)
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A Review: Industrial Internet of Things using 5G
International Journal for Research in Applied Science & Engineering Technology (IJRASET), 2023
Since 5G is the latest technology with a higher performance for the technologies. The 5G works as the product of the communication of the devices of the IoT in any industrial project. The faster speed with the proper efficiency will increase in the profit of the companies as these technologies will be helpful for the manufacture, storage and security of the plant and product. The error while using this technology is very less and the production in these will be high. In this paper, we will review about the new technologies and how they are useful in combination for the industries. The 5G and Internet of Things (IoT) combination in industries will be the next step of computer evolution.
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The Industry 4.0 revolution envisions fully interconnected scenarios in the manufacturing industry to improve the efficiency, quality, and performance of the manufacturing processes. In parallel, the consolidation of 5G technology is providing substantial advances in the world of communication and information technologies. Furthermore, 5G also presents itself as a key enabler to fulfill Industry 4.0 requirements. In this article, the authors first propose a 5G-enabled architecture for Industry 4.0. Smart Networks for Industry (SN4I) is introduced, an experimental facility based on two 5G key-enabling technologies—Network Functions Virtualization (NFV) and Software-Defined Networking (SDN)—which connects the University of the Basque Country’s Aeronautics Advanced Manufacturing Center and Faculty of Engineering in Bilbao. Then, the authors present the deployment of a Wireless Sensor Network (WSN) with strong access control mechanisms into such architecture, enabling secure and flexibl...
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With the rapid growth of advanced technologies in the manufacturing sector, a revolution in manufacturing systems is underway and smart manufacturing and its sustainability are becoming the key components towards the fourth industrial revolution. In this context, the IIoT (industrial internet of things), represents a bridge between the digital and physical environment by providing an interactive relation between smart devices and machines also through data sharing. Therefore, it creates a working environment where decisions are made in real-time.The huge data amount generated through the manufacturing system, the high reliability, low latency, and high connectivity demands of IIoT-enabled intelligent manufacturing system requires an advanced wireless transmission technology that goes far beyond the 3rd and 4th generation mobile network. 5G is the most appropriate communication technology for this new IIoT enabled smart manufacturing system’s requirements.Based on the requirements of...
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5G networks will change several industries, including manufacturing. 5G has the potential to become the future communication platform of choice for many industries and in particular the manufacturing sector, driving the future of Industry 4.0 and smart manufacturing. The vision of a “factory of the future” is now tangible for many industry sectors. The ability to cope with increased bandwidth, latency requirements, big-data generated from more connected equipment and the data processing required on the factory floor is a massive challenge for industry. This paper discusses how 5G can impact a manufacturing environment, the standards and technical requirements needed to meet the demands of utilizing 5G, and the security issues that need to be addressed if planning a 5G deployment.
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The digital transformation of Industry 4.0 is driven by the automation of manufacturing processes. In this context, communication plays a vital role and the emergence of 5G wireless technology brings the promise of connectivity scenarios like the industrial internet of things and industrial cyber-physical systems. However, there are still several aspects to consider on how to employ 5G in practical industrial environments such that the highly demanding communication requirements of the use cases can be fulfilled. This paper aims to review the essential enabling technologies of 5G and analyze real-world industrial use cases, with respect to available deployment options. While the paper focuses primarily on 5G non-public network variants, the potential of network slicing, multi-access edge computing infrastructure, and 5G integration with time-sensitive networking and open platform communications unified architecture is also examined. A critical analysis of available results suggests that these technologies can effectively facilitate ubiquitous wireless industrial communication, despite the stringent needs of industrial applications, including support of different quality of service levels and security requirements. Furthermore, an evaluation of different 5G network deployment options with relevant example use cases is carried out. Lastly, an analysis of available realworld 5G deployments for industrial applications is presented. The paper concludes by identifying challenges and open research questions that need further investigation in improving 5G capabilities for industrial networks.
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The Information and Communications Technology (ICT) industry across the globe is at the forefront of major transformations that are poised to impact the way industries work. In today's ultra-competitive markets, organizations across industries rely upon next generation ICT technologies to create and deliver game changing value propositions which are market disruptive in nature. Today, the ICT industry evolution has reached a stage where majority of ICT players (i.e. communications service providers, IT service providers, software makers and OEMs) are in a race to ride the much awaited 5G, AI and IoT waves to gain from the first mover advantage and find avenues for generating new revenue streams while obtaining thought leadership in this new marketplace. Among these players, especially, the communications service providers are betting big on these 3 emerging technologies as their traditional revenue streams from voice and data have shrunk in the recent past due to intense competition, commoditization of services, increasing spectrum costs and price pressures (decreasing ARPU). A wide range of IoT applications will be empowered by 5G backbone augmented using AI driven algorithms which can deliver the promise of a smart, ultra-fast, automated and data intelligence driven use cases across industries and ultimately realize the vision of Industry 4.0.