The document discusses Internet of Things (IoT) and how 5G networks will impact IoT applications. It begins with an overview of what IoT is and how devices connect to the internet. It then provides a brief history of wireless network generations before focusing on 5G's advantages like high speeds and low latency. The document suggests 5G will allow for new IoT applications in areas like smart homes and agriculture by facilitating improved communication between connected devices. It concludes by thanking the audience for their time.
Introduction to IEEE STANDARDS and its different types.pptx
IoT with 5G-Network
1. IOT with
5G Network
FEB. 2021
Presented by:
Eng / Belal Ashraf
Helwan University
FEB. 2021
Faculty of Engineering
contacts:
belal.nayzak@gmail.com
+20 1102288599
2. We will
Discuss
The
Following
Topics...
WHAT IS THE INTERNET OF THINGS AND HOW IOT WORKS
We will discuss and understand what is iot and how can devices be connected to internet
and controlled may be with a human control or may be automatic control Without human
intervention.
INTRODUCING - 5G - NETWORK AND THE GENERATIONS OF
NETWORKING
We will have a brief summary about the history of the network generations and we will
discuss and understand what is the fifth generation's main challenges, advantages and
features.
THE FUTURE OF IOT APPS WITH THE - 5G - NETWORK
We will discuss and understand how IOT benefits from the - 5G - Network technology
and see how does building IOT apps upon 5G opens the way to many new apps that will
affect our daily life.
3. What is IOT ?
WHAT IS THE MEANING OF IOT AND THE MAIN IDEA OF IOT TECHNOLOGY ?
4. IOT (INTERNET OF
THINGS)
IoT is a new technology that
was born a few years ago that
based on the internet network
which connects all IoT
network terminals together to
transfer data over the network
between terminals (devices)
abd take an action according
to these data
6. IOT system consists of some devices that has a built in chip that
can connect to internet throw an internet gateway to transfer
data (send/receive) throw the system to be shared in the cloud
with other terminals (devices) and take an action according to
these data may be by human or may be just automaticaly
without the need of human.
8. C.
Some of
the
advantages
of IoT
include the
following...
ability to
access
information
from anywhere
at any time on
any device
improved
communicatio
n between
connected
electronic
devices
transferring
data packets
over a
connected
network saving
time and
money
automating tasks
helping to improve
the quality of a
business's
services and
reducing the need
for human
intervention
9. C.
Some of
the dis-
advantages
of IoT
include the
following...
If there's a bug in the system, it's likely that every connected
device will become corrupted.
As the number of connected devices increases and more
information is shared between devices, the potential that a
hacker could steal confidential information also increases.
Enterprises may eventually have to deal with massive
numbers -- maybe even millions -- of IoT devices, and
collecting and managing the data from all those devices will
be challenging.
Since there's no international standard of compatibility for
IoT, it's difficult for devices from different manufacturers to
communicate with each other.
11. C.
There are
numerous
real-world
application
s of the
internet of
things...
smart homes that are equipped with smart thermostats,
smart appliances and connected heating, lighting and
electronic devices can be controlled remotely via computers
and smartphones.
Wearable devices with sensors and software can collect and
analyze user data, sending messages to other technologies
about the users with the aim of making users' lives easier and
more comfortable.
In agriculture, IoT-based smart farming systems can help
monitor, for instance, light, temperature, humidity and soil
moisture of crop fields using connected sensors
In agriculture, IoT-based smart farming systems can help
monitor, for instance, light, temperature, humidity and soil
moisture of crop fields using connected sensors
12. The way to 5G
THE HISTORY OF NETWORK TECHNOLOGIES (0G - 1G - 2G - 3G - 4G - 5G)
13. The way to 5G
1G
Analog cellular systems
consist of three basic
elements: a mobile
telephone (mobile radio),
cell sites, and a mobile
switching center (MSC). A
mobile telephone
communicates by radio
signals to the cell site
within a radio coverage
area.
2G
It is based on GSM or in
other words global
system for mobile
communication. It was
the first digital cellular
networks, which had a
number of obvious
benefits over the analog
networks they were
supplanting: improved
sound quality, better
security, etc
3G
The third generation of
mobile systems provides
high speed data
transmissions of 144
kbps and higher. It
comes with
enhancements over
previous wireless
technologies, like high-
speed transmission,
advanced
multimedia access and
global roaming.
4G
upgrade existing
networks and is
expected to provide a
comprehensive
and secure IP based
solution where facilities
such as voice, data and
streamed multimedia
will be provided to users
on an "Anytime,
Anywhere" basis and at
much higher data rates.
14. What is 5G
5G is a set of emerging global telecommunications standards, generally using
high-frequency spectrum, to offer network connectivity with reduced latency
and greater speed and capacity relative to its predecessors, most recently 4G
LTE (Long-Term Evolution).
Importantly, 5G describes a collection of standards and technologies used to
build tomorrow’s cutting-edge network infrastructure. In fact, many of the
standards that will be officially considered 5G are still being decided on by
working groups like the 3GPP, a collaborative body made up of various
telecommunications associations.
15.
16. The future of
IOT Apps With
5G network
THE HISTORY OF NETWORK TECHNOLOGIES (0G - 1G - 2G - 3G - 4G - 5G)
17. The future of IOT Apps With 5G
network
5G is a set of emerging global telecommunications standards, generally using
high-frequency spectrum, to offer network connectivity with reduced latency
and greater speed and capacity relative to its predecessors, most recently 4G
LTE (Long-Term Evolution).
Importantly, 5G describes a collection of standards and technologies used to
build tomorrow’s cutting-edge network infrastructure. In fact, many of the
standards that will be officially considered 5G are still being decided on by
working groups like the 3GPP, a collaborative body made up of various
telecommunications associations.