System brings deep learning to “internet of things” devices
Advance could enable artificial intelligence on household appliances while enhancing data security and energy efficiency.
Advance could enable artificial intelligence on household appliances while enhancing data security and energy efficiency.
Everactive provides an industrial “internet of things” platform built on its battery-free sensors.
A modern-day Renaissance man, Hawley pioneered the internet of things, won the Van Cliburn amateur piano competition, and published the world’s largest book.
MIT CSAIL researchers say improving computing technology after Moore's Law will require more efficient software, new algorithms, and specialized hardware.
An MIT system uses wireless signals to measure in-home appliance usage to better understand health tendencies.
Tiny, battery-free ID chip can authenticate nearly any product to help combat losses to counterfeiting.
External system improves phones’ signal strength 1,000 percent, without requiring extra antennas.
Associate Professor Yury Polyanskiy is working to keep data flowing as the “internet of things” becomes a reality.
Connected devices can now share position information, even in noisy, GPS-denied areas.
RFID-based devices work in indoor and outdoor lighting conditions, and communicate at greater distances.
Efficient chip enables low-power devices to run today’s toughest quantum encryption schemes.
New system breaks up cache memory more efficiently to better protect computer systems against timing attacks.
Researchers incorporate optoelectronic diodes into fibers and weave them into washable fabrics.
Project out of the MIT Media Lab uses biosensors and machine learning to optimize the sensory experience in individual work environments.
Design can “learn” to identify plugged-in appliances, distinguish dangerous electrical spikes from benign ones.