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The University of Tennessee, Knoxville and AT&T today opened a new AT&T 5G lab at UT Research Park at Cherokee Farm. The lab’s dedication is another step forward for his two institutions’ commitment and ability to deliver high-speed technology with meaningful applications to the people of Tennessee.
“Our community benefits greatly from faculty and students tackling real-world problems posed by businesses that live and work in the same community. We are committed to making lives and lives better,” said UT Knoxville President Donde Plowman.
UT is one of six universities in the United States working with AT&T on research initiatives. In 2021, UT has agreed to work with AT&T on a research project using his 5G+ mmWave spectrum network in a lab environment.
Joelle said: “We have a long history of working with UT on projects that explore ways to take advantage of new advanced technologies. ” said Phillips, president of AT&T Tennessee. It’s exciting to think that the innovations and applications that improve tomorrow’s lives start as “what if” conversations in this new lab. ”
The lab’s testbed equipment has now been installed, allowing faculty and students to begin research and development in a variety of areas of interest.
“Our faculty and students are extremely excited to use this state-of-the-art 5G testbed to develop innovations with far-reaching impact, including precision agriculture, healthcare and transportation,” said UT. Deborah Crawford, Vice Chancellor for Research. “By working with organizations like AT&T, we create impactful solutions.”
5G wireless technology will provide consumers with high-speed mobile broadband networks with ultra-low latency and superior data capacity.
Leaders from the University of Tennessee, Knoxville and AT&T prepare to cut the ribbon at the AT&T 5G Lab dedication event at the Advanced Materials Manufacturing Laboratory at UT Research Park.
The research conducted in the new lab has potential applications in multiple fields.
Transportation applications may include near real-time decision-making and control of vehicles, traffic monitoring, network optimization, secure 5G communication in transportation systems, and appropriate resource allocation to various transportation services.
Telemedicine applications may include predictive modeling to enable early disease detection, contactless patient monitoring, remote surgery, and discreet health monitoring.
Smart agriculture applications may involve low-cost, robust hardware. Sensors for crop, soil and animal monitoring. self-driving tractors; monitoring livestock health;
Sports applications may include immersive and interactive sports experiences, virtual tours of stadiums, and player and team performance data.
At the event, attendees were shown a demonstration of how augmented reality can help technicians perform critical tasks on airplane landing gear while working remotely with subject matter experts. I was. Similar applications exist in areas such as incident management and security, where the precise location of people and assets is critical.
UT students and faculty demonstrated how 5G+ connectivity combined with multi-access edge computing provides ultra-low latency, lightning-fast connectivity while keeping data within the UT Knoxville network.
Professor Aly Faty of the Tickle College of Engineering plans to make this a central research focus for his future lab.
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Media contact:
Kelsey Crittendon (865-974-0312, kelsiec@utk.edu)
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