The Institute of Electrical and Electronics Engineers (IEEE) named a research team led by Professor Theodore (Ted) Rappaport, founder and director of the NYU WIRELESS research center, as the recipient of the 2015 IEEE Donald G. Fink Award for work published in 2013.
Kinsa, the maker of the first-ever FDA-cleared smartphone-connected thermometer, today announced that it is giving Kinsa Smart Thermometers, priced at $29.99 retail, FREE to participating schools in an effort to combat this year's particularly dangerous flu season.
The University of Southampton is to join forces with the European Commission and the Japanese government to develop new technologies for high-speed networks in densely populated user areas.
At the 2014 Austin Trail of Lights, Freescale Semiconductor is bringing to life the power of connected technology with the new and improved Tiny Town display.
Freescale Technology Forum - Silex Technology America, Inc., a global leader in wired and wireless networking solutions, today at the Freescale Technology Forum in Tokyo announced the release of the Silex Technology SX-ULPAN, an ultra-low-power, dual-band 802.11 a/b/g/n Wi-Fi module with industrial temperature support. The SX-ULPAN provides the needed reliable connectivity for networking applications based on Freescale Kinetis MCUs.
A group of researchers from the High School of Telecommunications Engineering of the Universidad Politécnica de Madrid (UPM) has shown that is possible to detect an aggressive driving behavior by just monitoring external driving signals such as the speed or acceleration, since the aggressiveness works as a linear filter on these signals. This model was validated with empirical data under real driving situations with rates exceeding 92%.
In a study in the journal Neuron, scientists describe a new high data-rate, low-power wireless brain sensor. The technology is designed to enable neuroscience research that cannot be accomplished with current sensors that tether subjects with cabled connections.
Bathymetric lidars – devices that employ powerful lasers to scan beneath the water's surface – are used today primarily to map coastal waters. At nearly 600 pounds, the systems are large and heavy, and they require costly, piloted aircraft to carry them.
Researchers at Université Laval's Faculty of Science and Engineering and Centre for Optics, Photonics and Lasers have developed smart textiles able to monitor and transmit wearers' biomedical information via wireless or cellular networks.
The world is catching on to the importance of the Internet of Things (IoT). But don’t panic if you’re not quite there yet, says UBC’s Rodger Lea. The adjunct professor in the Human Communication Technologies Laboratory says now is the time to pay attention as the IoT transforms how we live and work.
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