All your answers are here about 5G Network
Introduction to 5G Network
Wireless communication technology has grown and advanced significantly over the years through research and innovation. The 5G Network is now the next generation of wireless communication systems. It is the time when we can connect various wireless technologies, networks, and applications simultaneously.
It is the next major phase of mobile telecommunications standards beyond the current 4G. 5G moves us beyond network design for mobile devices alone toward systems that connect different types of devices operating at high speeds.
The key features of 5G include high throughput, improved spectrum efficiency, reduced latency, better mobility support, and high connection density. It supports interactive multimedia, voice, video, Internet, and other broadband services.
To support increased throughput requirements of 5G, the new spectrum has been assigned to 5G in mmWave bands. 5G will use Multiple Input Multiple Output (MIMO) to significantly increase network capacity.
The move to 5G wireless communication standard is an action in response to the growth of the Internet of Things and the rise in demand for access to video and services over wireless broadband.
Although 5G is not expected until 2020, an increasing number of companies are investing now and are creating 5G products. The development of the new mobile wireless standard is being led by companies such as Intel, Qualcomm, Nokia, Ericsson, BT, Verizon, AT&T, and Samsung. For example Samsung Galaxy S10 5G, OnePlus: 7 Pro 5G.
How 5G Network Actually Works
I will not let you waste your time by writing about 3G,4G. Let us talk about how it works.
Like any other cellular network, 5G networks will consist of cells divided into sectors and send data through radio waves. Each cell is connected to a network backbone through a wired or wireless connection. 5G may transmit data over the unlicensed frequencies currently used for Wi-Fi. It promises a smarter, faster, and efficient network. The goal of 5G is to have far higher speeds available, at higher capacity per sector, and at far lower latency than 4G. To increase network efficiency, the cell is subdivided into micro and picocells. And the exciting part of this article comes here. 5G will be a new mobile revolution as it is expected to provide gigabit-per-second data rates anytime, anywhere.
In a 5G wireless network, every mobile phone will have an IPv6 address depending on the location and system being used.
5G includes the latest technologies such as cognitive radio, Internet of things, nanotechnology, and cloud computing.
5G technology has the following advanced features
- The architecture will be device-centric, distributed, programmable, and cloud-based.
- High data rates.
- One to 10 Gbps connections to endpoints.
- One millisecond end-to-end round trip delay.
- Low battery consumption
- Better connectivity irrespective of location
- A larger number of supporting devices
- Lower cost of infrastructure development
“What my research about 5G is there are three main benefits one will have”
Faster speed: Data transfer speeds with 5G speedier to be about ten times higher with 4G. That means significantly faster transmission of images and videos.
Shorter delays: 5G should reduce latency (the time between cause and effect). This will make it possible, for example, to watch high-speed virtual reality video with no delays.
Increased connectivity: 5G technology would bring faster, more reliable connections for users than 4G/LTE. That means more people and devices will be able to communicate at the same time.
Challenges With 5G Network
See, most of the people will not let you know about the challenges you are going to face for having a 5G Network. There will be many transformation challenges that must be tackled to utilize the 5G Visions fully.
There are also challenges with the integration of this technology to provide services in different application scenarios.
Some have also criticized 5G for its high projected cost and that it is incompatible with the previous generations. Just as 2G phones could not connect to 3G or 4G networks, 3G and 4G phones will not connect to a 5G network.
If you want to use 5G network then you have to buy new phone which is likely to be more expensive than 4G/LTE service. To address these challenges, we need a drastic change in the design of cellular architecture.
We also need to meet 5G systems performance requirements such as Mfentocells, stringent latency, network scalability, very long battery life, and green communications. It is a challenge to satisfy these requirements and minimize costs at the same