Researchers have developed an integrated, wearable system that monitors a user’s environment, heart rate and other physical attributes with the goal of predicting and preventing asthma attacks. Alper Bozkurt, Veena Misra, James Dieffenderfer et al., engineering,...
Researchers have developed an integrated, wearable system that monitors a user’s environment, heart rate and other physical attributes with the goal of predicting and preventing asthma attacks. Alper Bozkurt, Veena Misra, James Dieffenderfer et al., engineering,...
A whisk of fresh air has started to travel towards asthma patients and will be upon them as scientists at NC State are developing a wearable early warning system known as the Health and Environmental Tracker (HET). Veena Misra, engineering, featured.
Scientists at NC State have developed a health and environmental tracker (HET), a wearable system that aims to predict and potentially prevent asthma attacks by tracking lung function, activity rates, environmental factors, and other vital signs. Veena Misra,...
A wearable device that monitors a user’s environment, heart rate and other physical attributes has been developed with the goal of predicting and preventing asthma attacks. James Dieffenderfer, engineering, featured.
NC State researchers are working on a new three-part mostly wearable system that could help asthma patients monitor their vital signs and their environment to help predict and prevent attacks. Alper Bozkurt, engineering, featured.
Asthma patients may soon do away with their inhalers as researchers, including one of Indian origin, have developed an integrated, wearable system that monitors a user’s environment, heart rate and other physical attributes with the goal of predicting and...
Researchers have developed an integrated, wearable system that monitors a user?s environment and physical attributes to predict ? and prevent ? asthma attacks. Alper Bozkurt, James Dieffenderfer, Veena Misra, engineering, featured.
Researchers have developed an integrated, wearable system that monitors a user’s environment and physical attributes to predict -and prevent- asthma attacks. Alper Bozkurt, James Dieffenderfer, Veena Misra, engineering, featured.
Engineering researchers at North Carolina State University have developed a suite of techniques that allow them to create passive radio-frequency identification (RFID) tags that are 25 percent smaller ? and therefore less expensive.
Engineering researchers at North Carolina State University have developed a suite of techniques that allow them to create passive radio-frequency identification (RFID) tags that are 25 percent smaller and therefore less expensive. Dr Paul Franzon featured.
Engineering researchers at North Carolina State University have developed a suite of techniques that allow them to create passive radio-frequency identification (RFID) tags that are 25 percent smaller and therefore less expensive. Dr Paul Franzon featured.
Engineering researchers at North Carolina State University have developed a suite of techniques that allow them to create passive radio-frequency identification (RFID) tags that are 25 percent smaller – and therefore less expensive.
Research that could revamp the RFID tag – a technology already used in everything from parking passes to retail price tags – could soon spin out of North Carolina State University.
Research that could revamp the RFID tag ? a technology already used in everything from parking passes to retail price tags – could soon spin out of NC State. Paul Franzon, engineering, featured.
A team of engineering researchers at North Carolina State University has published details of a new technique they’ve developed, which allows for the creation of passive radio-frequency identification (RFID) tags that are 25% smaller than anything presently on...
Dog training takes time and also takes a certain level of expertise. Those are two reasons North Carolina State University’s Computer Science and Engineering departments, as well as the College of Veterinary Medicine, have created a computer-assisted training...
A new RFID passive tag design – the type of tag typically used in retail as well as many other applications – from engineers at North Carolina State University is said to result in tags that are 25% smaller than current versions and are therefore less...
NC State researchers have come up with ways to create passive radio-frequency identification (RFID) tags that are not only 25% smaller but also cheaper than typical tags. Paul Franzon, Ph.D. students Wenxu Zhao and Kirti Bhanushali, engineering, featured.
Engineers at North Carolina State University have applied a new technology called RF-only logic to create passive RFID tags that are 25 percent smaller than today?s. And a smaller tag means a cheaper tag.
