This presentation will enlighten upcoming 5g technology. covers about history and upcoming future of 5G technology. Describes its uses and impacts on society.

1. Abeel Muhammad
A presentation on “5G wireless Networking”

2. 5G Wireless Networking

3. History Of wireless Networking
Wireless mobile networks have been experienced of four generations of
change.

4. A view on Wireless Networking Up to Now
1G (1981)
 Analog system
 Public Voice Services
 2.4kbps
2G (1992)
 Digital System
 Text Messages, GPRS
 21.4kbps
3G (2001)
 Email,
 Video Streaming
 384kbps in wide areas & 2Mbps in Local Areas
4G (2011)
 IP based Networking
 100Mbps
 Combines multiple radio access to a single network, smoothly roaming

6. 5G denotes the next major phase of
mobile telecommunications
 Data rates of several tens of megabits per second should be supported for tens
of thousands of users
 1GBPs to be offered simultaneously to tens of workers on the same office floor
 Several hundreds of thousands of simultaneous connections to be supported for
massive sensor deployments
 Spectral efficiency should be significantly enhanced compared to 4G
 Coverage should be improved
 Signaling efficiency should be enhanced
 Latency should be reduced significantly compared to LTE

7. History of 5G 2008-2010
 In April 2008, NASA partnered with Geoff Brown and
Machine-to-Machine Intelligence (M2Mi) Corp to develop
5G communication technology.
 In 2008, the South Korean IT R&D program of "5G mobile
communication systems based on beam-division multiple
access and relays with group cooperation" was formed.

8. History of 5G in 2012
 On 8 October 2012, the UK's University of Surrey secured £35M for a new
5G research center, jointly funded by the British government's UK
Research Partnership Investment Fund (UKRPIF).
 On 1 November 2012, the EU project "Mobile and wireless
communications Enablers for the Twenty-twenty Information Society"
(METIS) starts its activity towards the definition of 5G. METIS intends to
ensure an early global consensus on these systems.
 Also on November 2012, the iJOIN EU project was launched, focusing on
“small cell" technology, which is of key importance for taking advantage
of limited and strategic resources, such as the radio wave spectrum.

9. History of 5G in 2013
 On 12 May 2013, Samsung Electronics stated that they have developed
the world's first "5G" system.
 In July 2013, India and Israel have agreed to work jointly on development
of fifth generation (5G) telecom technologies
 On 1 October 2013, NTT (Nippon Telegraph and Telephone), the same
company to launch world first 5G network in Japan, wins
 Minister of Internal Affairs and Communications Award at CEATEC for 5G
R&D efforts
 On 6 November 2013, Huawei announced plans to invest a minimum of
$600 million into R&D for next generation 5G networks capable of
speeds 100 times faster than modern LTE networks.

10. History of 5G in 2014 to
Now
 On 8 May 2014, NTT DoCoMo start testing 5G mobile networks with
Alcatel Lucent, Ericsson, Fujitsu, NEC, Nokia and Samsung.
 On 28 April 2015, President Recep Tayyip Erdoğan announced Turkey
might cancel 4G tender and move straight to 5G from 3G directly in two
years.
 On 8 September 2015, Verizon announced a roadmap to begin testing
5G in field trials in the United States in 2016.

11. 5G- Real World Wireless System

12. 5G Software
 5G will be single unified standard of different wireless networks, including
wireless technologies, LAN/WAN/PAN and WWWW. Unified IP and
seamless combination of Broad Band.
 Software defined Radio, Packet Layer, implementation of packets,
encryption, flexibility.

13. 5G Hardware
 Uwb Networks: Higher Bandwidth at low energy levels. This short range
technology is ideal for wireless personal networks.
 Bandwidth :4000 megabyte per second which is 100 times more faster
than today’s wireless networks.
 Smart Antennas :Switched beam antennas support radio via angle of
arrival information collected from nearby devices

14. 5G System Of
Systems
5G is going far beyond radio. To
achieve built-in flexibility current
networks will transform From
comprising vertically integrated
discrete network elements, to being
cognitive, cloud optimized and
seamless in operation. Networks will
become cognitive to be able to
optimize themselves autonomously

15. 5G Possibilities
Every industry will be affected by
5G. Network speeds as high as
10Gbps and with extremely low
latency are a driving force for new
applications that use massive
broadband capabilities. 5G will be
the platform enabling growth in
many industries, ranging from the IT
industry to the
car,entertainment,agriculture and
manufacturing industries.

16. 5G Practicalities
By 2030 there is likely to be as much as
10,000 times more wireless data traffic
crisscrossing networks than there was in
2010. With the right approach this can be
done in an economically feasible way:
growing in line with traffic demand while
leveraging existing investments. Nokia
Networks has done extensive
deployment studies in Chicago, Madrid,
New York and Tokyo to find the most
efficient deployment strategies

17. Versatile 5G radio
5G radio systems that use advanced
antennas and operate in the bands
up to 100GHz for extreme
throughput and virtual zero latency.
While more spectrum below 6 GHz
is needed and innovative
techniques will be put into
operation to make more efficient
use of already allocated spectrum,
there will be a growing need to
unlock new spectrum bands in the 6
to 100 GHz range

18. 5G Potential
Driven by the enormous increase in
mobile data traffic and flourishing
user demands, we need to look
beyond 4G. The mobile
communications community has
already conducted significant
research into systems for the next
decade and 5G is the acronym for
next generation mobile
communication systems. It is
generally anticipated that 5G will be
commercially available around 2020
at the earliest.

19. Programmable 5G Multiservice
architecture

20. The new
risks with 5G
5G makes all sorts of technologies
possible - but also raises the stakes. If
your car is being operated via a cloud-
based autonomous driving system over
5G, you don't want to lose the signal
right at the precise moment it's about to
tell your vehicle to slam on the brakes.
Operators and technology companies
know that (and are perhaps considering
the insurance implications). So they are
aiming to cut network latency to make
sure such an event doesn't happen.