Sending clearer signals
Associate Professor Yury Polyanskiy is working to keep data flowing as the “internet of things” becomes a reality.
Associate Professor Yury Polyanskiy is working to keep data flowing as the “internet of things” becomes a reality.
Device may enable “T-ray vision” and better wireless communication.
In-band full-duplex techniques applied to a phased-array antenna may provide a tenfold speedup in data transmit and receive rates while supporting a rapidly increasing number of wireless devices.
New method from MIT’s research enterprise in Singapore paves the way for improved optoelectronic and 5G devices.
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.
Submerged system uses the vibration of “piezoelectric” materials to generate power and send and receive data.
Along with studying theory, "it's also important to me that the work we are doing will help to solve real-world problems,” says LIDS student Omer Tanovic.
In some cases, radio frequency signals may be more useful for caregivers than cameras or other data-collection methods.
System uses RFID tags to home in on targets; could benefit robotic manufacturing, collaborative drones, and other applications.
Device made from flexible, inexpensive materials could power large-area electronics, wearables, medical devices, and more.
ClimaCell uses wireless signals to track and forecast the weather in every 500-meter patch of the Earth’s surface.
Electronic pill can relay diagnostic information or release drugs in response to smartphone commands.
Simple, scalable wireless system uses the RFID tags on billions of products to sense contamination.
System that automatically identifies people moving around indoors could enable self-adjusting homes.