Release Date: August 22, 2017 This content is archived.
BUFFALO, N.Y. — Buffalo has joined a list of cities nationwide to have a wireless network tailored for the so-called internet of things — the tech industry’s buzzword for connecting everyday physical objects to the internet.
The network — a partnership between Sigfox, a global IoT (short for internet of things) connectivity provider, and the University at Buffalo’s School of Engineering and Applied Sciences — puts Buffalo in company with San Francisco, Boston and a few dozen other high-tech hotbeds.
To stream video and transmit other data-intensive content, traditional wireless technologies such as Wi-Fi, 3G and 4G cellular systems are needed to support fast speeds and large amounts of bandwidth. While great for laptops and smartphones, these devices are relatively expensive, use lots of power and can cause wireless traffic jams.
Sigfox differs because it employs a unique device-to-cloud communications approach to put simple objects online. The approach, which uses radio frequencies ideal for sending small amounts of data over long distances, is known as a low-power wide-area (LPWA) network. It reduces the cost to connect to the internet, and it limits battery consumption.
Sigfox’s LPWA network is ideal for systems that track whether a parking spot is vacant or occupied, if a public recycling bin is empty or full, whether or not a shipment has arrived, or if a door is open or closed — virtually any modest-sized bits of information.
The range of a Sigfox network is greater than most cellular providers, too. For example, its network at UB provides coverage to the Buffalo Niagara region.
“It’s really cutting-edge technology for UB researchers to conduct groundbreaking experiments that could lead to great societal benefits,” said Josep Jornet, PhD, assistant professor of electrical engineering at UB, whose research attracted Sigfox to Buffalo. “We’ll also be able to implement the network into our classrooms, offering students an immersive, hands-on course specifically about the internet of things.”
As part of that course, UB is working with the City of Buffalo to identify how students can apply the technology to improve services.
Buffalo’s tech sector, startup community and hobbyists will benefit too. The internet of things is a segment of the world’s economy that could be worth more than $11 trillion by 2025, according to management consultant firm McKinsey & Company.
“We are excited the University at Buffalo chose Sigfox LPWA network as the backbone to support the internet of things academics,” said Sean Horan, director of sales and partners at Sigfox North America. “What can be achieved through IoT is limited only by human imagination, and providing universities with IoT technologies, where imagination is fostered, we’ll see a whole new wave of innovation powered by IoT.”
“Bringing Sigfox to Buffalo provides fantastic new opportunities for our academic community, as well as for our many startup and tech communities,” said Liesl Folks, dean of UB’s School of Engineering and Applied Sciences. “The network will provide a state-of-the-art technology platform for professors and students, as well as for entrepreneurs and existing companies looking to innovate.”
About Sigfox
Sigfox is the world’s leading provider of connectivity for the IoT. The company has built a global network to connect billions of devices to the Internet while consuming as little energy as possible, as simply as possible. Sigfox’s unique approach to device-to-cloud communications addresses the three greatest barriers to global IoT adoption: cost, energy consumption, and global scalability.
Today, the network is present in 32 countries and on track to cover 60 by 2018 – covering a population of 589 million people. With millions of objects connected and a rapidly growing partner ecosystem, Sigfox empowers companies to move their business model towards more digital services. For more information, see www.sigfox.com and follow us on Twitter, Facebook and Youtube.
Cory Nealon
Director of Media Relations
Engineering, Computer Science
Tel: 716-645-4614
cmnealon@buffalo.edu