What is the relationship of the fifth generation networks to smart cities? era of savings
The fifth generation (5G) networks have become a reality, and their role
will not be limited to smart phones, but rather it is considered a
revolution in smart cities, how is that?
Before monitoring the relationship of the smart city revolution to the fifth
generation, there are differences between the fifth generation 5G and the
fourth generation networks that exist today in many countries, as 5G
networks offer huge upgrades in terms of speed and latency, giving you the
ability to download a movie in HD quality in a few seconds, in addition to
the ability Enjoy live streaming and gaming, all on your smartphone.
Indeed, the role of 5G networks will not be limited to smartphones only, but
also promises a revolution in the world (Internet of Things) IoT, which
includes billions of smart devices connected to the Internet, which are
spread all around us, including: homes, offices, and cities Also.
Imagine a city that interacts with what's in it and with the world around
it, taking information from the people inside and processing data from
sensors on roads, vehicles, buildings, and more, with the goal of improving
the quality of life for the people who live in it.
5G networks are poised to enable a whole new generation of platforms and
services that can take smart cities from science fiction to science reality.
Here's all you need to know:
The fifth generation and the transport sector:
In the 5G era, we will see booms in the transportation sector, as vehicles
on the roads in smart cities will be able to communicate with each other and
with people, according to the technical website ait.
Indeed, cities such as: Austin, Singapore, and Dubai have begun to deploy an
interconnected network of devices and sensors that collect valuable
information to improve the transportation sector.
Commuting is often one of the most disturbing parts of our daily lives;
causing stress, boredom, and frustration; Not to mention the millions of
working hours lost due to delays, and the time that vehicles spend in
traffic idling while they are not moving is not good news for the
environment.
Thanks to the data collected by sensors deployed at intersections and roads,
smart cities can determine where traffic jams are occurring. Traffic lights
can also be modified to allow more vehicles to pass per section, and
additional highway lanes or motorbike lanes can be opened at times of
congestion.
It can also keep motorists on the highway with congestion, or accident
alerts directly on their dashboards, allowing them to take other routes much
of the time.
Emergency services can also determine the exact route to the accident, as
well as the route to the hospital, which can save lives.
Besides the huge leaps in the field of autonomous vehicles, public
transportation is getting smarter, with many cities now able to provide
travelers with real-time network updates, as well as alerts about where the
busiest are on trains, or where to go to rent a bike .
Existing public transportation methods can be analyzed to find out where
there are peak and reverse cases of use, with the possibility of switching
to less used roads, or displaying entirely new ones.
All of this combines to help smart cities run more smoothly, make sure
workers get to work on time, and try to reduce the environmental impact of
transportation.
Energy for all:
Another area in which smart cities are making significant advances is energy
and utilities, and we all know we need to be more environmentally friendly,
and smart cities can help shoulder this burden. Using data collected on
pedestrian and vehicle habits, street lights can be dimmed, or It can even
be turned off in low-traffic areas, and can only be turned on when it
detects a person walking nearby.
It can be used as escalators, revolving doors in office buildings; The
technology itself, which helps reduce energy use there.
Buildings, malls, and shopping malls alike can again benefit from the
technology of turning on lighting when only needed to reduce waste of
electricity, in addition to enabling smart energy policies that stop heating
or air conditioning if no one is around, saving They have the money, keep
the planet.
How to connect to the fifth generation:
The question on everyone's mind is how will a 5G connection do all this?
Simply put, being able to take advantage of the massive amount of data
collected by sensors in smart cities requires a massive amount of
networking.
5G networks can provide the ability to connect far more devices than ever
before, forming the basis for efficient small cell networks that will be the
backbone of the highly interconnected wireless infrastructure required in a
smart city.
Small cellular networks also broadcast across a specific local area,
allowing the use of a depth sensor for all data-collection smart city
initiatives, such as monitoring air quality or traffic congestion.
Better Connected and Smarter Cities:
Existing 4G networks suffer from the burden of mass calling in a small area,
which is a problem for anyone who has tried to post an update on social
media from a crowded place, but thanks to the increasing power of 5G
networks, more connected and more intuitive networks will enhance the
capacity of small cellular networks to some extent. Large, allowing for a
stronger, smarter connection.
Besides, the advantages of mobile connectivity that 5G networks will bring
can also make data transmission smoother, not only for real-time analytics
for government agencies or companies, but for simple cases such as tracking
exactly where the next bus is.
There is no doubt that the benefits that smart cities promise us are
exciting, offering everything from a smooth transition to lowering home
energy bills.
Although this technology is still at a very early stage, the emergence of 5G
technology will give smart cities a huge boost, and given that 5G is
spreading all over the world in a way that increases our ability to
communicate, the possibilities it provides for smart cities in the future
are endless. Its really.