Know the history of 5G, and how this is better than 1G-4G. Comparison of all Gs. Applications that will use the 5G. Future view of 5G can be understand
4. What is 5G?
• 5G is fifth generation wireless
technology.
• 5G enables a new kind of network
that is designed to connect
virtually everyone and everything
together including machines,
objects, and devices.
5. What is 5G?
5G brings three new things to the
table:
Wider channels (speed)
Lower latency (responsiveness)
More bandwidth (the ability to
connect a lot more devices at once).
6. Why we
need 5G?
5G is not only important because it has the
potential to support millions of devices at
ultrafast speeds, but also because it has the
potential to transform the lives of people
around the world.
7. Why we
need 5G?
Improving accessibility
Significant advances in autonomous vehicle
technology are possible with 5G, creating
the potential for people to have new levels
of personal and professional freedom.
Connected appliances can help automate
tasks around the house, which can not only
improve personal convenience but also help
those who need assistance with everyday
tasks.
8. Why we
need 5G?
Extending the reach of mobile
broadband
5G can power technology well beyond what
current mobile technology permits.
5G promises to make significant
improvements in 3D holograms, virtual
reality and augmented reality, creating
opportunities to connect people far beyond
what current cellular technology allows.
9. Why we
need 5G?
Improving safety, health and
security
Access to 5G technology promises to
improve mission-critical services that affect
safety and security of services today.
Opportunities include smart cities with 5G
in public spaces, the potential for remote
surgery, better traffic control and many
other applications that depend on nearly
instantaneous response time.
13. How is 5G
better than
4G?
• 5G is faster than 4G.
5G can be significantly faster than 4G,
delivering up to 20 Gigabits-per-second
(Gbps) peak data rates and 100+
Megabits-per-second (Mbps) average
data rates
14. How is 5G
better than
4G?
• 5G has more capacity than 4G.
5G is designed to support a 100x
increase in traffic capacity and network
efficiency.1
15. How is 5G
better than
4G?
• 5G has lower latency than 4G.
5G has significantly lower latency to
deliver more instantaneous, real-time
access: a 10x decrease in end-to-end
latency down to 1ms.
16. How is 5G
better than
4G?
• 5G is a unified platform that is more
capable than 4G.
While 4G LTE focused on delivering
much faster mobile broadband services
than 3G.
5G is designed to be a unified, more
capable platform that not only elevates
mobile broadband experiences, but also
supports new services such as mission-
critical communications and the
massive IoT.
17. How is 5G
better than
4G?
• 5G uses spectrum better than 4G.
5G is also designed to get the most out
of every bit of spectrum across a wide
array of available spectrum regulatory
paradigms and bands—from low bands
below 1 GHz, to mid bands from 1 GHz
to 6 GHz, to high bands known as
millimeter wave (mmWave).
19. Who Invented 5G?
But the several companies contributing to
bringing 5G to life within the mobile
ecosystem.
Qualcomm has played a major role
20. History of
5G
Verizon led the way in developing and
deploying 5G and accelerating 5G
innovation
In 2015, Verizon created the 5G
Technology Forum (5GTF)—bringing
together key partners like Ericsson,
Qualcomm, Intel and Samsung—to
move the entire 5G ecosystem forward.
21. History of
5G
The 5GTF work helped accelerate the release of the
3GPP 5G New Radio (NR) standard in December of
2017.
On April 3, 2019, of we introduced 5G mobile service
in parts of Chicago and Minneapolis. Customers in
those cities were the first in the world to have a 5G-
enabled smartphone connected to a 5G network.
Since then, Verizon has been able to introduce a
number of 5G phones, including the Samsung Galaxy
S10 5G, Galaxy Note 10+ 5G, LG V50 ThinQ™
5G among others.
22. History of 5G
– Launching
Area and
Dates
Chicago – launched
April 3, 2019
Minneapolis –
launched April 3,
2019
Denver – launched
June 27, 2019
Providence –
launched July 1,
2019
St. Paul – launched
July 18, 2019
Atlanta – launched
July 31, 2019
Detroit – launched
July 31, 2019
Indianapolis –
launched July 31,
2019
Washington, D.C. –
launched July 31,
2019
Phoenix – launched
August 23, 2019
Panama City –
launched
September 26, 2019
New York City –
launched
September 26, 2019
Dallas – launched
October 25, 2019
Omaha – launched
October 25, 2019
Houston – launched
November 19, 2019
Boston – launched
November 19, 2019
23. Startups
Working on
5G
Telecom startups working on 5G
technologies are primarily located in the
United States: California and New York.
Another major hub is centered in
London, UK.
A high number of 5G startups & scaleups
operate from Germany, China, the
Netherlands, and India as well
28. Orthogonal Frequency-Division Multiplexing
Orthogonal frequency-
division multiplexing is a
method of data
transmission where a single
information stream is split
among several closely
spaced narrowband
subchannel frequencies
instead of a single
Wideband channel
frequency.
29.
30.
31.
32.
33.
34. How and when will 5G affect the
global economy?
• $13.1 Trillion dollars of global economic output
• $22.8 Million new jobs created
• $265B global 5G CAPEX and R&D annually over the next 15
years
35. How will 5G affect us?
5G is designed to do a variety of things that can
transform our lives, including giving us faster download
speeds, low latency, and more capacity and connectivity
for billions of devices—especially in the areas of virtual
reality (VR), the IoT, and artificial intelligence (AI).
For example, with 5G, you can access new and improved
experiences including near-instant access to cloud
services, multiplayer cloud gaming, shopping with
augmented reality, and real-time video translation and
collaboration, and more.
36. How do businesses use 5G?
With high data speeds and superior network reliability, 5G
will have a tremendous impact on businesses. The benefits
of 5G will enhance the efficiency of businesses while also
giving users faster access to more information.
Depending on the industry, some businesses can make full
use of 5G capabilities, especially those needing the high
speed, low latency, and network capacity that 5G is
designed to provide. For example, smart factories could use
5G to run industrial Ethernet to help them increase
operational productivity and precision.
37. How do cities use 5G?
Smart cities could use 5G in a variety of
ways to transform the lives of people
living in them—primarily providing
greater efficiencies like more connectivity
between people and things, higher data
speeds, and lower latency than ever
before in areas like automotive safety,
infrastructure, VR, and entertainment.