5G, short for "fifth generation," refers to the latest generation of mobile network technology that offers significant advancements over its predecessors. It is designed to provide faster data speeds, lower latency, increased capacity, and support for a wide range of emerging technologies. 5G aims to revolutionize the way we connect and communicate, enabling new applications and services that were not feasible with earlier network generations.
2. Presented By
Shagor Kumar Das
ID: 201002403
Shahriar Ahsan Taisiq
ID: 201002396
2
Emon Hossain
ID: 201002221
3. TABLE OF CONTENTS
INTRODUCTION 01
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5G technology overview 02
5G network performance 03
5G applications and use
cases 04
Challenges and
considerations for
deploying 5G 05
5G and the Internet of
Things (IoT)
06
5G and edge computing
07
5G and cybersecurity
08
5G deployment status and
future developments
09
Conclusion And
References
10
4. Introduction
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The fifth generation of mobile network
technology, is a major advancement in
the field of telecommunications.
It offers a number of key features, such
as increased speed, capacity, and low
latency, which will enable a wide range
of new applications and use cases.
5. 5G TECHNOLOGY OVERVIEW
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5G operates in a number of different spectrum bands, including
Low-band.
Mid-band.
High-band frequencies.
5G networks also have a different network architecture compared to previous
generations. Rather than relying on a single network of cells, 5G networks use a
combination of macro cells and small cells to provide coverage. Finally, 5G can be
deployed in two different modes: standalone, which uses a 5G-only core network,
or non-standalone, which uses an existing 4G network as a foundation.
6. 5G NETWORK PERFORMANCE
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Increased capacity and coverage:
Higher speeds and lower latency
Enhanced mobility and reliability
In addition, 5G networks have higher speeds and lower latency, which means
data can be transmitted and received faster and with less delay. This improved
performance will enable a wide range of applications and use cases, such as
virtual reality, autonomous vehicles, and smart cities.
7. 5G APPLICATIONS AND USE CASES
5G technology has the potential to transform a number of
different industries and sectors. Some examples include:
Healthcare (where 5G can enable remote monitoring
and telemedicine)
Transportation (where 5G can support the development
of autonomous vehicles)
Manufacturing (where 5G can enable the use of
industrial automation)
Entertainment (where 5G can support the use of virtual
and augmented reality)
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9. 5G AND THE INTERNET OF THINGS
One of the key applications of 5G technology is the support of the Internet of
Things, or IoT.
The IoT is a network of connected devices that communicate and exchange data
over the internet, and it is expected to grow significantly in the coming years.
5G networks have the capacity and low latency needed to support the large number
of devices and the high-bandwidth applications associated with the IoT.
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10. 5G AND EDGE COMPUTING
• Edge computing is a type of computing in which data processing and storage
occur at or near the source of data collection, instead of in a remote centralized
location.
• 5G enables edge computing by providing faster and more reliable data
transmissions, which allows for data to be processed and stored closer to the
source.
• 5G networks also allow for lower latency, allowing for faster response times
and more real-time processing.
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11. 5G AND CYBERSECURITY
• Cybersecurity risks and challenges for 5G networks
• Measures for protecting 5G networks
There are cybersecurity risks and challenges associated with 5G networks. The increased
complexity and number of connected devices in 5G networks can create more
opportunities for attackers to gain access to the network.
The higher speeds and lower latency of 5G networks can make it more difficult to detect
and mitigate attacks.
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12. 5G DEPLOYMENT STATUS AND
FUTURE DEVELOPMENTS
• Current state of 5G deployment around the world
• Future developments and trends in 5G technology
Some key trends in 5G technology include the use of millimeter wave frequencies, the
development of standalone networks, and the integration of 5G with other technologies
such as the IoT and edge computing.
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13. CONCLUSION
5G is a major advancement in mobile network technology that offers improved
performance and the potential to enable a wide range of new applications and use
cases. While there are challenges and considerations involved in deploying 5G
networks, the benefits of 5G are significant and it is expected to play a major role in the
future of telecommunications.
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14. Referrences
3GPP: The 3rd Generation Partnership Project (3GPP) is an industry organization that develops standards for
mobile telecommunications, including 5G. Their website includes a wealth of information about 5G technology,
including technical specifications and deployment scenarios.
GSMA: The GSMA represents the interests of mobile operators worldwide, and their website includes a section
on 5G with information on the latest developments and trends in 5G technology.
NTT DOCOMO: NTT DOCOMO is a major Japanese telecommunications company that has been at the
forefront of 5G deployment and research. Their website includes information on their 5G research and
development activities, as well as details on their 5G commercial service.
Verizon: Verizon is a leading telecommunications provider in the United States and has been heavily involved in
the deployment of 5G networks. Their website includes information on their 5G network, including coverage
maps and details on their 5G devices.
Ericsson: Ericsson is a leading provider of telecommunications equipment and services, and their website
includes a section on 5G with information on their 5G products and solutions.
5G Americas: 5G Americas is an industry organization that represents the interests of 5G stakeholders in the
Americas, and their website includes a wealth of information on 5G technology and deployment.
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