IoT News Roundup

Identiv expands distribution of smart-card readers, credentials in Saudi Arabia ••• Carnegie Mellon leverages LoRaWAN protocol to build open IoT network ••• Huawei, Gemalto team up to accelerate narrow-band IoT deployments ••• Senet launches global low-power wide-area virtual network for IoT connectivity ••• Industrial Internet Consortium, Plattform Industrie 4.0 stop in San Francisco for IIoT World Tour ••• AT&T approves Altair's LTE-M chipset on IoT network ••• People Power offers smart-home IoT service to Australian consumers ••• IoT company Gooee launches in Europe.
By IOT Journal

PRESS RELEASE:

Carnegie Mellon Leverages LoRaWAN Protocol to Build Open IoT Network

The LoRaWAN Academy, a comprehensive university program connecting next-generation engineers with LoRaWAN-based low power wide area network (LPWAN) technology for applied learning and advanced research, announced the participation of the College of Engineering at Carnegie Mellon University (CMU) in the LoRaWAN Academy curriculum, intended to drive and support universities and their students in learning more about Semtech's LoRa® devices and wireless RF technology (LoRa Technology) and the global LoRaWAN™ open standard. By leveraging LoRa Technology and LoRaWAN open protocol, CMU developed its own network, OpenChirp, to educate its students in adopting cutting-edge technology to develop innovative Internet of Things (IoT) solutions.

CMU's OpenChirp, an LPWAN network, is an open-source, completely free and crowd-sourced ecosystem for students, researchers and citizen scientists where they can collect and share LoRaWAN-based sensor data. Users can link in their own gateways to expand the network and easily register their LoRaWAN-based devices. OpenChirp enables users to explore different types of architectures and applications that can impact society. CMU is collaborating with other U.S. universities to host their own LoRaWAN-based services and share devices seamlessly across universities.

"Connecting sensors is often the most expensive and challenging part of a deployment especially when they are located in remote areas where data needs to travel long distances. By implementing battery-operated, low-powered LoRaWAN-based devices and the LoRaWAN protocol, OpenChirp demonstrates that it is feasible to scale low-powered sensing devices for use across large areas, like campuses, manufacturing plants or even cities," said Anthony Rowe, an associate professor of electrical and computer engineering, who leads the OpenChirp project at CMU. "At Carnegie Mellon, students are using OpenChirp to develop IoT applications including smart grid demand / response, air quality sensing, and a campus asset-tracking system."

"The LoRaWAN Academy will help develop a new generation of engineers prepared to tackle the world's toughest challenges with IoT technology," said Jaap Groot, acting director of the LoRaWAN Academy. "As IoT becomes more prevalent and LoRa Technology is the defacto IoT platform, it will be important for universities to educate their students with technology that will help with their careers as well as develop new solutions for today's challenges. Carnegie Mellon's work is a prime example of the LoRaWAN-based projects that students can develop with LoRa Technology and the LoRaWAN open protocol."

JOIN THE CONVERSATION ON TWITTER
Loading
ASK THE EXPERTS
Simply enter a question for our experts.
Sign up for the RFID Journal Newsletter
We will never sell or share your information
RFID Journal LIVE! RFID in Health Care LIVE! LatAm LIVE! Brasil LIVE! Europe RFID Connect Virtual Events RFID Journal Awards Webinars Presentations