Artificial intelligence meets “blisk” in new DARPA-funded collaboration
Collaborative multi-university team will pursue new AI-enhanced design tools and high-throughput testing methods for next-generation turbomachinery.
Collaborative multi-university team will pursue new AI-enhanced design tools and high-throughput testing methods for next-generation turbomachinery.
The MIT Electric Vehicle Team, Sustainable Engine Team, Solar Electric Vehicle Team, Motorsports Team, First Nations Launch Team, and Arcturus are each doing their part to improve the health of our planet.
The new design approach could be used to produce metals with exceptional combinations of strength and ductility, for aerospace and other applications.
The results of a six-year collaboration between MIT researchers, the FAA, and Massport will reduce aircraft noise in local communities while maintaining or improving fuel efficiency.
In research that may lead to next-generation airplanes and spacecraft, MIT engineers used carbon nanotubes to prevent cracking in multilayered composites.
Autonomous helicopters made by Rotor Technologies, a startup led by MIT alumni, take the human out of risky commercial missions.
At the ASM Materials Education Foundation’s 2023 Undergraduate Design Competition, seniors Louise Anderfaas and Darsh Grewal design a super-strong aluminum plate for applications such as planes and cars.
The team’s new algorithm finds failures and fixes in all sorts of autonomous systems, from drone teams to power grids.
Designed to ensure safer skies, “Air-Guardian” blends human intuition with machine precision, creating a more symbiotic relationship between pilot and aircraft.
Lincoln Laboratory is developing a roadmap to streamline system acquisitions and facilitate connectivity across the Southwestern test ranges.
With this new approach, a tailsitter aircraft, ideal for search-and-rescue missions, can plan and execute complex, high-speed acrobatic maneuvers.
Technology demonstrations show the machine’s major components achieve the required performance.
With a grant from the Office of Naval Research, MIT researchers aim to design novel high-performance steels, with potential applications including printed aircraft components and ship hulls.
With 75 years of aviation industry-focused research and education under its belt, the lab continues to develop propulsion systems for next-generation aircraft.
Award recognizes Shin’s contributions at Lincoln Laboratory to air vehicle survivability and STEM education in support of national defense.