The Ultimate Guide to Network Slicing

What is Network Slicing?

Network slicing is often compared to Software Defined Networking (SDN) and Network Function Virtualization (NFV), as a technology that harmonizes the infrastructure of the fixed layer to improve visibility, control and flexibility, making it easier for organizations to manage their networks.

Network slicing is an end-to-end concept that covers all of the existing network segments. Network slicing enables the deployment of multiple logical, self-contained and independent shared or partitioned networks concurrently on a common infrastructure platform.

Network slicing considerably transforms the entire perspective of networking by abstracting, isolating, orchestrating, and separating the logical network components from the underlying physical network resources. This, in turn, leads to the enhancement of the network architecture principles and capabilities.

How does Network Slicing work?

Network slicing will prove invaluable as 5G becomes the standard, especially for those involved in IoT, where there is high potential for growth. If a cable or fiber connection between the nodes of a local area network is sufficient, then 10G is all but required when the number of devices connected to each node becomes increasingly large.

Meanwhile, organizations everywhere will be able to use network slicing to revolutionize the way they work remotely. Projects in industries that require low latency can take place collaboratively across disparate locations, and there could be guaranteed availability options available for fields like telemedicine. Network slicing meanwhile, will allow a software-defined controller to direct capacity to those emergency services without impacting consumer networks, which may already be congested or at full capacity. .These new technologies represent a shift away from building large, outsized networks toward smaller, more flexible systems. But the networks still need to work.

The Different Use Cases of Network Slicing?

Network slicing is a common way to deliver content to end users Network slicing is a method of network analysis that uses the network structure of an enterprise to identify and extract information from its data.

The use cases identified for 5G network slicing are into three main categories:

1. Extreme (or enhanced) Mobile Broadband (eMBB): With the latest mobile networks and data plans becoming more viable for the average consumer, applications like Netflix, Hulu, etc. have become very popular. The extreme mobile broadband (eMBB) apps will be able to provide these services at a much faster pace than ever before. This will also mean more bandwidth per unit of device, as a lot of data is transferred when streaming video over mobile networks.
2. Ultra-reliable Low-Latency Communications (urLLC): This research is focused on the development of ultra-reliable Low-Latency Communications (urLLC) systems. The goal is to provide a mobile phone-like experience without any of the latency issues that plague traditional mobile networks.
3. Massive Machine-Type Communications (mMTC): This is more commonly known today as the Internet of Things, but at a much larger scale, with billions of devices being connected to the network. . Among the applications that could be developed with this method of communication, some include remote monitoring, safety systems, and environmental monitoring.

Some of the benefits of Network Slicing Are:

Network slicing allows us to find those groups that agree with us and then get them together in one place where we can communicate with them face-to-face without risking

Some of the benefits of Network Slicing are:

End-to-end network slicing enables new business model innovation and use cases across all verticals, and creates new revenue opportunities for communication service providers. In this session, we will present our technology solutions that transform the broadcast industry into a real business after a two-year development process.

Network slicing has been a fundamental part of the networking service industry. The network slicing paradigm provides customers with a unique ability to combine multiple cloud services and to leverage every available resource on the network. It is an effective way to distribute intensive data processing across many servers or use different compute instances for different tasks instead of having one server serving all your data processing needs.

• It vastly improves operational efficiency and time to market for the delivery of 5G network services.
• A single network can be used to offer various services based on the requirements of the user and various use cases.

How can the flexibility enabled by network slicing benefit your business?

Flexibility is an important part of our lives. It is one of the reasons why we have to work and live online. Flexible workplaces, flexible business models, flexible processes and flexible products are just a few examples of the benefits flexibilization brings to businesses.

The flexibility of network slicing offers a myriad of benefits for businesses.

• Support the adoption of the Internet of Things (IoT) and other technologies: The capability can provide a dedicated and contained part of the network to fully control and support critical IoT solutions with reliable communications and guaranteed quality of service.
• Protecting sensitive data: If a company is handling sensitive data using slicing, that data can be sent over different chunks of the network to safeguard privacy. This capability can be brought in for specific projects and then removed when they’re finished.
• Reduce costs: Wireless autonomous machines (WAM) will help electronics manufacturers to reduce costs, while network slicing allows them to use internet bandwidth efficiently. The study highlights several ways in which WAMs could improve the manufacturing process. WAMs are designed to work with existing equipment and machines, while slicing allows them to be used across a wide range of products.