A step toward safe and reliable autopilots for flying
A new AI-based approach for controlling autonomous robots satisfies the often-conflicting goals of safety and stability.
A new AI-based approach for controlling autonomous robots satisfies the often-conflicting goals of safety and stability.
A new low-temperature growth and fabrication technology allows the integration of 2D materials directly onto a silicon circuit, which could lead to denser and more powerful chips.
George Ricker and his team at the MIT Kavli Institute are mapping the entire sky for signs of life.
Drawing inspiration from butterfly wings, reflective fibers woven into clothing could reshape textile sorting and recycling.
J-WAFS researchers are using remote sensing observations to build high-resolution systems to monitor drought.
Codon compiles Python code to run more efficiently and effectively while allowing for customization and adaptation to various domains.
The second annual student-industry conference was held in-person for the first time.
Lincoln Laboratory seeks ways to build non-contact screening methods that can detect concealed explosives at airports.
“Squeezing” noise over a broad frequency bandwidth in a quantum system could lead to faster and more accurate quantum measurements.
Cloud security and video forensics software have been transitioned to end users.
The cap will help researchers gain new insight into how the brain functions.
MIT researchers developed and studied a customized AI training program for users with varied backgrounds, which could be delivered across large organizations.
Researchers have demonstrated directional photon emission, the first step toward extensible quantum interconnects.
In a visit to MIT, Under Secretary of Defense for Research and Engineering Heidi Shyu talked about the DoD’s role in strengthening U.S. manufacturing.
Award recognizes Shin’s contributions at Lincoln Laboratory to air vehicle survivability and STEM education in support of national defense.