THE 3
rd
INTERNATIONAL SCIENTIFIC CONFERENCES OF STUDENTS AND YOUNG RESEARCHERS
dedicated to the 99
th
anniversary of the National Leader of Azerbaijan Heydar Aliyev
95
increase in the number of modules, and there is no need to instruct new
modules to investigate additional pathologies.
Figure 1.
Modular structure of the neural network
References
[1] Bronzino J., Peterson D. The Biomedical Engineering Handbook. NY, CRC Press,
Ledition, 2001, 5430 p.
[2] URL:http://www.physician/egg/.
THE 3
rd
INTERNATIONAL SCIENTIFIC CONFERENCES OF STUDENTS AND YOUNG RESEARCHERS
dedicated to the 99
th
anniversary of the National Leader of Azerbaijan Heydar Aliyev
96
IMPLEMENTING OF 5G TECHNOLOGİES IN IOT NETWORKS
Nurana Sadigova
Baku Higher Oil School
Baku, Azerbaijan
nurana.sadigova.std@bhos.edu.az
Supervisor: Asim Namazov
Keywords:
5G, IOT
The concept of Internet of Things was proposed by Professor Ashton
during the research on Radio Frequency Identification, in 1999. Later, a lot
of IoT systems have been built, and architecture of it has been developed,
which is critical.
There are two major architecture ideas for IoT, at the moment: top-down
and bottom-up methods. The bottom-up research concepts begin with the
structure of physical things, and broaden to the Internet. While the top-down
approach takes initiative with an Internet application system and arrange
physical items using Web services. During this process, it tries to keep
compatibility between top and bottom layers.
The scope of 5G services extends beyond personal communications to
include mobile phones, wearable devices, sensors, actuators, automobiles,
robotics, and other aspects of society. As a result, 5G networks might be
considered critical infrastructure for society and the ICT industry.
Because they have produced new benefits and conveniences that were
not previously available, information and communication technologies (ICT)
have been viewed as vital factors for social and economic growth. People
have been able to access broadband services on their mobile devices (such
as smartphones and tablet PCs) since 4G wireless network services were
released, and the end-user experience has nearly equaled that of cable
connections. Despite the advancements in 4G wireless network technology,
providing mobile services that require high speed, rapid response, high
dependability, and energy efficiency is difficult. As a result, these
characteristics have become necessary for future 5G services.
The following are examples of typical 5G services in each category.
Immersive 5G services, including virtual reality and augmented reality
(VR/AR), as well as enormous content streaming
Intelligent 5G services: user-centric computing, crowded area
services
Omnipresent 5G services: Internet of things
Autonomous 5G services: smart transportation, drones, robots
Public 5G services: disaster monitoring, private security/public safety,
emergency services
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