“Spatial computing” enables flexible working memory
The brain applies rhythms to physical patches of the cortex to selectively control just the right neurons at the right times to do the right things.
The brain applies rhythms to physical patches of the cortex to selectively control just the right neurons at the right times to do the right things.
With the right building blocks, machine-learning models can more accurately perform tasks like fraud detection or spam filtering.
Using these RNA-delivery particles, researchers hope to develop new treatments for cystic fibrosis and other lung diseases.
A hands-on class teaches undergraduates the fundamentals of quantum mechanics and nanoscale science from inside MIT.nano’s cleanroom.
With further development, the programmable system could be used in a range of applications including gene and cancer therapies.
Researchers create a trajectory-planning system that enables drones working together in the same airspace to always choose a safe path forward.
Associate Professor Tamara Broderick and colleagues build a “taxonomy of trust” to identify where confidence in the results of a data analysis might break down.
MIT engineers discover new carbonation pathways for creating more environmentally friendly concrete.
Ming Guo seeks connections between a cell’s physical form and its biological function, which could illuminate ways to halt abnormal cell growth.
Developed at SMART, the therapy stimulates the host immune system to more effectively clear bacterial infections and accelerate infected wound healing.
Computational tool from MIT CSAIL enables color-changing cellulose-based designs for data visualization, education, fashion, and more.
Fake seeds can cost farmers more than two-thirds of expected crop yields and threaten food security. Trackable silk labels could help.
New LiGO technique accelerates training of large machine-learning models, reducing the monetary and environmental cost of developing AI applications.
The teams will work toward sustainable microchips and topological materials as well as socioresilient materials design.
Drawing inspiration from butterfly wings, reflective fibers woven into clothing could reshape textile sorting and recycling.