How Does Edge Computing Boost the Potential of 5G

How Does Edge Computing Boost the Potential of 5G

5G and Edge Computing are two inseparable technologies that are taking us towards a tech revolution. Analysts in this domain believe that the introduction of 5G is going to make Edge Computing inevitable.

With a speed about ten times higher than 4G, 5G will open scopes for collecting data from far-away sensors at a much shorter processing time. Since the number of handled data increases, Edge Computing comes into play. This is a great duo, and to know more about how they are related, stay tuned to this article.

What is Edge Computing?

Let us first get familiar with Edge Computing before moving further. Edge Computing refers to a distributed paradigm. It brings computations and stored data closer to the geographical areas where they are required. It also allows improved response time and saves bandwidth. “Edge” here refers to locations.

In Edge Computing, a local server processes the data rather than carrying it to any other centralized data center. This enables faster processing as the local server is only concerned about the local data. It is a relatively new model that intends to bring computational power in close association with IoT sensors, smartphones, and other connected technologies.

How can Edge Computing Benefit 5G?

For providing uninterrupted and fast services via 5G networks, 5G and Edge Computing will have to work hand in hand. Edge Computing can create good enough capabilities for 5G to function. This will aid in overcoming the limitations in 5G geographic or device coverage.

Even the network speed will be enhanced since each area will have local servers to nurture the specific local data. Thus it will reduce the processing speed by a considerable amount. Edge computing can handle the situation during real-time computations but cannot transport it in real-time.

The proliferation of 5G technologies is going to require huge bandwidth for transmitting large volumes of cellular data over the network. This, of course, paves the way for intervention from Edge computing that can handle such scenarios quite efficiently. 5G, which can combat latency with its distributed network, will allow organizations to expand their network edge and carry data far more efficiently.

Rather than having to route everything back to a central data server, overlapping 5G networks will permit them to retain more data on the edge. These edge networks will also help prevent the “last mile” problem, in which transmitted data bottlenecks through a series of sub-optimal connections before reaching their intended users.

When put together, 5G and Edge computing become indomitable. Of course, customers will prefer more reliable technology. And for organizations dealing with huge data storage and collections, this can act as a great power.

5G will Make Edge Computing Grow

When 5G makes a debut in the market, it will walk in, holding hands with Edge Computing. Without Edge Computing, 5G turns out to be slow and inefficient. The demand for Edge Computing is already rising while research on 5G is at its peak.

With the involvement of 5G, it no longer remains connected to phones or tablets; rather, it now expands to every device that has access to the Internet cloud and Internet of Things (IoT). Think about the data mass that will be processed! Without speed and versatility, this technology will stand nowhere in the market.

Processing these huge volumes of data at a faster speed will require new antennas, new devices, and new applications for wireless data. This is where Edge Computing comes to the rescue. With local servers and local centers for data processing, it can break this huge data volume into fragments, specific to a local area.

The processed data will be handed over from the local server to the device that requested it. This will improve customer satisfaction and reduce latency. Not only that, for certain industries like medical organizations, defense, and intelligence centers, this is also not only about satisfaction but rather about the lives of many.

So, processing delay can never be an option here. Else the impact could be devastating. When 5G was planned, it targeted every essential field with the promise of efficient service, and that promise can be fulfilled only if 5G and Edge Computing work together. The research is all about making the new better than the old.

Edge Computing Demands Tighter Security

Attackers can access local servers if there are no tight security measures. For Edge Computing, every local server is equally important to any centralized server in a network.

If we don’t take care of such foreign interventions, there will be hampers to the administration of a particular geographic area. For every local network, take extra precautions to maintain security and prevent foul play.

Increased Complexity

Of course, when you are talking about coalescing two technologies together, the network architecture will acquire more complexity. But you cannot avoid investments in increased network complexity as 5G and Edge Computing together need the implementation to take this new technology to the pinnacle.

This would contribute to the increase in the relevance of edge networks in the global future. Some researchers assume that edge networks will chiefly depend on device functionality, with the networks’ features matched to the tools that need them.

Moreover, since edge networks largely depend on the devices that make use of it, there may exist variations in the network setup process, and these are some of the challenges that the duo may face while implementing.

Conclusion

With progress in generations, the demands for high-speed data processing and quick internet access have increased to their peak. 5G will be a revolution in this field; that is why so much of investments are made in making it feasible and efficient.

With 5G budding in the market, edge computing has got the limelight it deserves. Now, we can wait for the new tech pair to come up soon and take us into a new and faster era.

Posted by
Ajoy Kumar

He is a Computer Science graduate dedicated to empowering individuals to forge successful careers in programming and the dynamic world of technology and industry.

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