Features such as network speed, capacity, latency, and accessibility can be tailored in each section to meet a specific service level agreement (SLA) for a blended reality experience. As an example, games, as well as smart homes and cloud collaboration, are responsive and consistent.
What are the benefits of network slices?
Even though network slicing is not a new concept, it is becoming progressively important as mobile operators invest heavily in their 5G networks in support of healthcare, manufacturing, retail, and utilities.
We should start by looking at smart cities. Data is collected by millions of devices that gather information about the environment, energy, traffic, and more. A dependable 5G wireless network is essential for smart cities. For example, drones, which can be used for traffic monitoring or crisis response, must have low latency to deliver near-real-time responses and high-resolution video streams.
However, more traditional cloud-based services will run the city’s social services regardless of how fast the connection is, so they won’t necessarily need to be fast. Network slicing allows both use cases to run on the same hardware infrastructure, with each slice generating revenue for the MNO.
There is also a division of use cases with high/low latency and high/low bandwidth in privately owned businesses. Smart manufacturers may need only a single network operation, such as an extremely low standby time, for automated production lines, or for errands, such as stand-alone forklifts, where the safety of the employee is dictated by the connection’s responsiveness.
Let us see what is SLA in guaranteeing digital experience using network slicing?
The use case can be met by Ultra-dependable low-density communication (urLLC). However, the manufacturer could also produce Internet of Things sensors elsewhere in its plant, which require low bandwidth capacity, such that massive machine-type communications (mMTC) on 5G will be able to handle the high density of the gadget.
Online analytics could be used to help significant gaming departments provide enhanced AR and VR services based on a customer-centric approach. This network service requires a variety of technical features to ensure that the experience doesn’t make clients feel nauseous, and without connecting to the network, it’s practically impossible to guarantee progress in terms of bandwidth and latency.
There is a mystery surrounding network automation
This exciting process enables MNOs to ensure that their network is scalable and flexible to meet the demands of different uses and applications. Automating the network slicing process is a vital aspect of its success.
MNO will likely benefit from the storage and management of thousands of dollars of network traffic. The volume of fingerprints they require and the speed their clients require make them unable to handle this volume.
Under normal circumstances, the automation work process will allow for a much more efficient and productive operation in a manageable lifecycle as well as in real-time. There are some factors to be considered, such as workloads, work requirements, and evolving resources.
Offering a personalized experience
Mobile operators can empower their network field services through the adaptation of mobile network availability for mixed reality use cases through the use of different virtual networks over a typical physical network infrastructure while tailoring their offerings specifically for each use case. MNOs can, as a consequence, offer a greater number of clear and bespoke mixed reality services and make a greater amount of money from their networks.
By enabling network slicing, MNOs can support multiple use cases and 5G applications to open up new revenue streams. As the MNOs adapt to new use cases enabled by SDNs and NFVs, new and previously undeveloped ones will open up.
Protecting network slices for critical services that require a certain level of performance will not just create new income streams for services, it will also ensure the effectiveness of cutting-edge technology to improve lives.