Recovering “lost dimensions” of images and video
Model could recreate video from motion-blurred images and “corner cameras,” may someday retrieve 3D data from 2D medical images.
Download RSS feed: News Articles / In the Media / Audio
Model could recreate video from motion-blurred images and “corner cameras,” may someday retrieve 3D data from 2D medical images.
MIT and IBM researchers offer a new method to train and run deep learning models more efficiently.
MIT senior's longstanding passion for Mandarin leads to a hands-on taste of the complexities of functioning in a Chinese business context.
Model from the Computer Science and Artificial Intelligence Laboratory identifies “serial hijackers” of internet IP addresses.
Ultrathin coating could protect 2D materials from corrosion, enabling their use in optics and electronics.
Five software and hardware projects will launch the MIT.nano Immersion Lab Gaming Program.
RFID-based devices work in indoor and outdoor lighting conditions, and communicate at greater distances.
Algorithm enables one audio signal to glide into another, recreating the “portamento” effect of some musical instruments.
Researchers integrate diamond-based sensing components onto a chip to enable low-cost, high-performance quantum hardware.
Study offers models for preserving the privacy of citizens while using their data to improve government services.
Research shows that, contrary to accepted rule of thumb, a 10- or 15-year lifetime can be good enough.
Materials Research Laboratory’s Materials Research Science and Engineering Center sponsors a motor-building workshop.
New detection tool could be used to make quantum computers robust against unwanted environmental disturbances.
Filaments with embedded circuitry can be used to print complex shapes for biomedical and robotic devices.
Nearly 30 MIT-affiliated researchers will share in the prize, while David Jay Julius ’77 wins Breakthrough Prize in Life Sciences; assistant professor of physics Max Metlitski shares New Horizons prize with Xie Chen PhD ’12 and Michael Levin PhD ’06.