Faster analysis of medical images
Algorithm makes the process of comparing 3-D scans up to 1,000 times faster.
Algorithm makes the process of comparing 3-D scans up to 1,000 times faster.
Lab will work with Chinese company on research in artificial intelligence, language processing, and human-computer interaction.
Wireless smart-home system from the Computer Science and Artificial Intelligence Laboratory could monitor diseases and help the elderly “age in place.”
Device uses ultrafast “frequency hopping” and data encryption to protect signals from being intercepted and jammed.
Faculty from across the Institute tapped to lead new initiative in human and machine intelligence.
New bolometer is faster, simpler, and covers more wavelengths.
Scientists leverage one step, unbiased method to characterize the binding preferences of more than 70 human RNA-binding proteins.
Interdisciplinary undergraduate program combines urban planning and computer science.
With novel system, data scientists can analyze massive networks without the need for power-hungry servers.
Activity simulator could eventually teach robots tasks like making coffee or setting the table.
Researchers design 3-D-printed, driverless boats that can provide transport and self-assemble into other floating structures.
MIT researchers and industry form new consortium to aid the drug discovery process.
In yearlong program, MIT students apply computer science to humanities, arts, and social science research.
Cryptographic system could enable “crowdsourced” genomics, with volunteers contributing information to privacy-protected databases.
Today’s autonomous vehicles require hand-labeled 3-D maps, but CSAIL’s MapLite system enables navigation with just GPS and sensors.