A Brown University-led team of researchers has developed a system for multiplexing and de-multiplexing terahertz waves, solving one of the technical challenges of terahertz wireless networking, which could potentially deliver data at rates that are up to 100 times faster than current wireless technology.
Aerohive Networks has introduced a version of its network management system that can be run from an on-premises appliance as an alternative to cloud network management.
West Virginia State University has upgraded its network infrastructure to include a 10-gigabit core switch, an advanced router, power-over-Ethernet (PoE) switches and PoE access points in an effort to support researchers and to attract and retain top-notch students, faculty and administrators.
Over the next year, Oral Roberts University will undergo a massive wireless revamp aimed at "academic growth and expansion.”
A $500,000 grant from the National Science Foundation will fund a data-intensive network that will connect University of Minnesota researchers with others around the world.
Resourcefulness in funding, planning and multi-university collaboration are helping to prevent another wireless network breakdown for the University of Tennessee at Chattanooga.
Researchers in Pacific coast states are gaining access to a networking infrastructure that connects the science "DMZs" of multiple research institutions.
Hughes Network Systems, a provider of broadband satellite solutions and services, has launched a new suite of products for educational institutions, including high-speed satellite Internet access, digital signage, distance learning and managed wireless networking.
Students at California State University, San Bernardino will soon be able to charge their mobile devices wirelessly all over campus.
Washington's Clark College has upgraded its network from 1-Gigabit to 10-Gigabit fiber.