Manipulating the future
A new robotic manipulation course provides a broad survey of state-of-the-art robotics, equipping students to identify and solve the field’s biggest problems.
A new robotic manipulation course provides a broad survey of state-of-the-art robotics, equipping students to identify and solve the field’s biggest problems.
The Institute also ranks second in two subject areas.
Associate professor and principal investigator with the MIT Schwarzman College of Computing’s Science Hub discusses the future of robotics and the importance of industry-academia collaborations.
Graduate engineering, economics, and various science programs are No. 1 in the nation; MIT Sloan is No. 5.
The findings may inform decisions on holding large outdoor gatherings amid future public health crises.
Inspired by an ancient technology, engineers design a sensor that can measure pressure inside the digestive tract.
Alum seeks reliable and environmentally sensitive water and sanitation solutions for the developing world.
CSAIL scientists came up with a learning pipeline for the four-legged robot that learns to run entirely by trial and error in simulation.
Faculty leaders describe their efforts to develop potentially game-changing tools.
Longtime professor of mechanical engineering influenced nuclear reactor design and shaped thermodynamics education at MIT.
Supported by a $100 million founding gift, the academy will deepen the integration of design across the Institute and beyond.
A new cleaning method could remove dust on solar installations in water-limited regions, improving overall efficiency.
Professors Kamrin, Lang, McGee, and Shoulders are honored for exceptional undergraduate teaching.
Seventeen new professors join the MIT community, with research areas ranging from robotics and machine learning to health care and agriculture.
A new solution to beach-fouling seaweed, developed by MBA candidate Andrés Bisonó León and Luke Gray ’18, SM ’20, is designed to cut greenhouse gas emissions.