IEEE Solid-States Circuits Magazine - Winter 2021 - 79

The 5G umbrella of use cases.

NPN scenarios, from fully private to public.

5G use cases in industry 4.0.

The u-blox collaborative research project to support the 5G rollout.

which has headquarters in Thalwil, Switzerland, and a presence at
29 worldwide sites. Its business includes chipsets, modules, and services enabling short-range cellular
and positioning activities. One of
the main differences between 5G
and previous generations of -cellular
networks lies in the technology's
advanced capabilities, i.e., unprecedented reliability and very low
latencies. 5G networks will achieve
manufacturing flexibility on the
factory floor, supporting a wide variety of sensors, devices, machines,
robots, actuators, and terminals,
with potential in connected industries, in particular, the manufacturing and process sectors.
The presentation introduced
some of the main building blocks
of 5G and certain major challenges
in information and communications

technology and operational technology that industry is working to resolve with the next 3rd Generation
Partnership Project (3GPP) release.
One interesting aspect of 5G is the
coverage of various uses cases, from

Domenico Pepe, the new SSCS Switzerland
Chapter industrial relations coordination
officer.

the simplest set of features for edge
sensors, using massive machine-type
communications, to enhanced mobile
broadband. Processes such as robotic motion control will employ ultrareliable, low-latency communication to
avoid faults during operation.
In contrast to offering mobile
communication to the general public, a 5G nonpublic network (NPN),
also called a private network or a
campus network, provides services
to a clearly defined user organization. Its implementations are based
on 3GPP specifications and range
from self-contained NPNs that have
no connection to the public network to NPNs that are hosted entirely by public network operators.
NPNs offer advantages in terms of
coverage, capacity, control and security, and end-to-end traceability.
Boeggering concluded with some

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IEEE Solid-States Circuits Magazine - Winter 2021

Table of Contents for the Digital Edition of IEEE Solid-States Circuits Magazine - Winter 2021

Contents
IEEE Solid-States Circuits Magazine - Winter 2021 - Cover1
IEEE Solid-States Circuits Magazine - Winter 2021 - Cover2
IEEE Solid-States Circuits Magazine - Winter 2021 - Contents
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