5g in a neighborhood (ProStockStudio/Shutterstock.com)

Private networks speed 5G deployments

The COVID-19 pandemic made clear the need for greater connectivity nationwide, and one solution that is hitting its stride as a result is private 5G.

“5G is the fastest growing segment in the wireless network infrastructure market,” according to Gartner, which predicts that by the end of 2024, 60% of cloud service providers will commercialize 5G service in Tier-1 cities. But operators won’t have true 5G on their public networks until 2025-2030, making private networks the fastest way to take advantage of the technology.

To understand how private 5G differs from public, think of it like this: If you have a Verizon cellphone, its SIM card allows you to authenticate and get authorization to use that network, but you can’t use an AT&T network because it is not provisioned to do so. A private 5G network changes that by removing the limitations.

For instance, the Air Force’s flight line operations require constant connectivity in an environment that’s always moving, said Mark DeVol, vice president of federal sales at Cradlepoint, which Ericsson acquired last year. “If we can bring a private cellular network to surround an Air Force flight line or an Army flight line … then you have the mobile connectivity,” he said. “You can now be working within a private cellular network, not the commercial carrier network, and you can then be the one that owns, manages, operates and -- the biggest thing -- control that network environment. You give up control when you’re working on a commercial network vs. when you can own, operate and maintain it yourself.”

“You basically become a mini carrier yourself,” added Todd Krautkremer, Cradlepoint’s chief marketing officer.

As a result, solutions providers like Cradlepoint are building versions of these private cellular networks to facilitate IT organizations’ adoption of private 5G. “If there are Wi-Fi devices in the flight line that don’t have SIMs in them, you’re going to use a Cradlepoint device to connect those Wi-Fi-enabled devices to a cellular network,” he said.

At the beginning of this year, the school district in Murray City, Utah, became the first school district in the country to create and launch its own private cellular network using Citizens Broadband Radio Service (CBRS) spectrum, the frequency band approved for private cellular networks. The private LTE network will provide free internet access to all 6,000 of its students.

The district set up cell towers around school campuses that broadcast at least 4 miles, DeVol said. Then, a unit in users’ homes lets them connect to that private network owned and managed by the school district. The result is high-speed broadband via cellular, he added.

Since last fall, the Fresno, Calif., Unified School District (FUSD) has been erecting cell towers on 15 schools to provide private LTE that supports up to 6,000 concurrent students.

“By putting it on a school, you avoided the whole permitting process and the whole buildout of a tower and all the engineering,” said Philip Neufeld, executive IT director of FUSD. “With the LTE connectivity and areas that don’t have good cell towers, in areas where the families can’t afford it, these students are going to have these hindrances blown out of their way…. They’re going to be more employable, more likely to go to college, and that changes the economic situation in a region.”

The biggest private 5G deployer is the Defense Department. Its 2020 “5G Strategy Implementation Plan” states that DOD “will require the ability to securely use private, hybrid and public 5G networks. In June, the department announced the successful demonstration of a private 5G network in a pilot test of a smart warehouse by Marine Corps Logistics Command in Albany, Ga.

For entities that don’t want to be their own carriers, Krautkremer said a managed service model is an option in which a systems integrator handles the network architecture and management.

Benefits of 5G include speed and the support of network slicing, which allows a single network connection to be partitioned into multiple virtual ones to handle different traffic simultaneously.

“5G is the first true software-defined network, so we’ll be able to do things like network slicing. We’ll be able to slice up 5G and allocate it to applications,” Krautkremer said. “We will be able to … manage the connection so that if I’ve got a critical connection, it doesn’t get squashed at 5 o’clock because the traffic on the local roadways are all using their cell towers. The bandwidth gets dedicated.”

In Fresno, other organizations are interested in using a private network, including the hospital, which could reduce the per-person cost of health care delivery by improving telemedicine, for example. “I think there will be an explosion of these types of networks because it reaches people who are underserved in multiple ways with multiple different ways that it brings value,” FUSD’s Neufeld said.

About the Author

Stephanie Kanowitz is a freelance writer based in northern Virginia.


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