OVERVIEW
Scale up the network.
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Network slicing promises optimized 5G bandwidth for business-critical specialized services.
This emerging capability promises to bring an unprecedented level of flexibility to the provisioning and configuration of 5G network resources.
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Natacha Baroni, Energy Product Marketing Expert
As the amount of data required to manage and monitor utility grids escalates, so does the concern over how much infrastructure upgrades will cost. But there is an alternative.
Network slicing partitions a single physical network into multiple virtual networks that utilities can customize for various applications or use cases. The benefit comes from being able to strategically allocate cellular bandwidth to meet your operating needs.
The software-defined network slicing architecture lets you establish logical networks that run on top of the physical 5G infrastructure. Within this virtualized environment, it’s possible to partition bandwidth into segments and uniquely identify applications or users to achieve required service levels. Your IT department can design each logical network to serve a specific purpose for your utility and include all network resources necessary to provide the latency, bandwidth, and reliability desired.
With 5G network slicing, your utility can scale up to handle data generated and transmitted by smart grids, improve security with isolated virtual networks, manage operations more effectively, and improve overall performance without expensive infrastructure upgrades.
SCALE, SECURITY, EFFICIENCY
Network slicing benefits.
Scale up the network
As utilities embrace smart grid technology and deploy more sensors and IoT devices, the data volume generated and transmitted can become overwhelming for traditional network architectures. But 5G-powered network slicing creates virtual networks that can handle unique demands for each application.
For example, you might assign a separate virtual network to handle the data generated by real-time demand-response signals. So even as the volume of data increases, the network remains reliable and responsive.
T-Mobile ’s experts will work with you from beginning to end to help you select a network solution and achieve your modernization goals.
Secure your network
In traditional network architectures, all devices and applications share the same infrastructure, making it harder to isolate potential security threats. Utilizing 5G network slicing can create virtual networks separate from each other from end to end, providing additional security against cyber-attacks. For instance, a virtual network for critical infrastructure—such as power plants and substations—can be cut off from all other networks.
Achieve cost effectiveness
With more devices and sensors capturing and transmitting more data than ever, you may find existing infrastructure can’t handle the traffic. Network slicing can reduce the need for network upgrades while enabling new value-added services that are more efficient and cost-effective. The upshot is improved performance without costly capital expenditures.
NEXT LEVEL TECH & NETWORK
T-Mobile can help you get started.
While network slicing as a technology is not new, its integration with Standalone 5G will help support new services and capabilities by carving a dedicated slice out of the macro network with benefits in terms of throughput, latency, and reliability. And, with the flexibility enabled by Standalone 5G, end-to-end network slicing offers a reality with higher scalability and enhanced quality-of-services management.
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About the author:
Natacha Baroni, Energy Product Marketing Expert, with over a decade of experience enabling customers in the energy industry improve efficiency, digital transformation, and safety. Specializing in marketing and product management, she uses her experience to bring industry and customer perspectives into the development of business initiatives and go to market strategies to best meet industry needs.
Natacha holds a B.Sc. in Chemistry from the University of Wisconsin, Milwaukee and an MBA from Olin Business School, Washington University in St. Louis.
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