Train Your Team on the Fundamentals Enabling Industrial IoT

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man in lab studying IoT concepts

With the release of 5G Industrial IoT (5G IIoT), production lines in the standard factory are transitioning into a mechanism of the past. With the consolidation of information technology (IT) and operational technology (OT), 5G produces a unifying connectivity fabric among devices that will promote availability, scalability, and security within an industrial setting.

Though manufacturing environments were previously thought to provoke unwanted complications, 5G IIoT application has gained major popularity due to the improvements the system has provided for factory floors. 5G’s fiber-like speeds enable precision timing for complex machinery and the use of Coordinated multi-point (CoMP) redundancy ensures that radio signals are no longer blocked among moving metal parts. These advancements, as well as many more, are evidential of the revolution 5G has initiated over the standard production model.

While businesses may be rushing to get their hands on 5G’s connected services, phrases such as millisecond latency, massive MIMO, and radio access networks (RAN) may still sound overwhelming to those with little 5G wireless experience.

Courses like 5G NR for Industrial IoT Technical Overview shed valuable light on the details behind 5G IIoT and provide training on the application and management of the emerging system.

This course contains vital learning objectives to develop 5G expertise, including:

  • Review the stages of industrial evolution.
  • Categorize typical use cases and performance requirements for IIoT.
  • Outline key enabling 5G features of IIoT services and applications.
  • Explain network architecture options and deployment approaches for industrial use.
  • Discuss network slicing and multi-access edge computing.
  • Explain time sensitive networking (TSN) in 5G.
  • Discuss 5G based positioning.
  • Discuss spectrum options for 5G NR and potential interference issues.
  • Elaborate on network operation and management aspects.
  • Describe the evolution of 5G towards 3GPP Release 17.
  • Discuss smart factories as a case study for Industrial IoT

To further strengthen your team’s technical understanding of the fundamental’s enabling Industrial IoT, the course also includes sections that cover the industry drivers of 5G deployment and a holistic view into the possibilities and challenges when launching a 5G industrial network:

  • Benefits of 5G in the industry.
  • Technology fundamentals for industrial use of 5G.
  • Techniques that support low latency and high reliability in 5G.
  • Upcoming features like TSN and positioning.
  • High level system architecture and deployment options.
  • Network slicing and multi-access edge computing (MEC).
  • Spectrum options, network coexistence, and interference issues.

With a focus on machine-to-machine (M2M) communication, big data, and machine learning, IIoT will facilitate a newfound efficiency and dependability to industries worldwide. If you’re interested in learning more about how 5G Industrial IoT can reconfigure your current production model into an efficient smart factory, check out our course 5G NR for Industrial IoT Technical Overview today.

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