Surface-based sonar system could rapidly map the ocean floor at high resolution
A small fleet of autonomous surface vessels forms a large sonar array for finding submerged objects.
A small fleet of autonomous surface vessels forms a large sonar array for finding submerged objects.
Using high-powered lasers, this new method could help biologists study the body’s immune responses and develop new medicines.
The method could help communities visualize and prepare for approaching storms.
The Lincoln Laboratory-developed laser communications payload operates at the data rates required to image these never-before-seen thin halos of light.
The drug-device combination developed by MIT spinout Lumicell is poised to reduce repeat surgeries and ensure more complete tumor removal.
Labs that can’t afford expensive super-resolution microscopes could use a new expansion technique to image nanoscale structures inside cells.
New dataset of “illusory” faces reveals differences between human and algorithmic face detection, links to animal face recognition, and a formula predicting where people most often perceive faces.
“We are adding a new layer of control between the world of computers and what your eyes see,” says Barmak Heshmat, co-founder of Brelyon and a former MIT postdoc.
“ScribblePrompt” is an interactive AI framework that can efficiently highlight anatomical structures across different medical scans, assisting medical workers to delineate regions of interest and abnormalities.
For Sarah Sterling, the new director of the Cryo-Electron Microscopy facility at MIT.nano, better planning and more communication leads to better science.
Lightwave electronics aim to integrate optical and electronic systems at incredibly high speeds, leveraging the ultrafast oscillations of light fields.
The software tool NeuroTrALE is designed to quickly and efficiently process large amounts of brain imaging data semi-automatically.
New findings could help engineers design materials for light and heat management.
A newly described technology improves the clarity and speed of using two-photon microscopy to image synapses in the living brain.
This technique could lead to safer autonomous vehicles, more efficient AR/VR headsets, or faster warehouse robots.