Solving the challenges of robotic pizza-making
A new technique could enable a robot to manipulate squishy objects like pizza dough or soft materials like clothing.
A new technique could enable a robot to manipulate squishy objects like pizza dough or soft materials like clothing.
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.
CSAIL scientists came up with a learning pipeline for the four-legged robot that learns to run entirely by trial and error in simulation.
The AI-Guided Ultrasound Intervention Device is a lifesaving technology that helps a range of users deliver complex medical interventions at the point of injury.
Lincoln Laboratory's K–12 outreach coordinator opens doors to opportunities and instills lasting confidence in students.
Theories from cognitive science and psychology could help humans learn to collaborate with robots faster and more effectively, scientists find.
Self-reconfiguring ElectroVoxels use embedded electromagnets to test applications for space exploration.
Akasha Imaging, an MIT Media Lab spinout, provides efficient and cost-effective imaging with higher-resolution feature detection, tracking, and pose orientation.
Senior Laura Rosado settled on her major while designing a flying car.
Overseeing business and research units across MIT Open Learning, Breazeal will focus on the future of digital technologies and their applications in education.
MIT ocean and mechanical engineers are using advances in scientific computing to address the ocean’s many challenges, and seize its opportunities.
The 2021-22 Accenture Fellows are bolstering research and igniting ideas to help transform global business.
Using a new robotic platform, researchers can simultaneously track hundreds of microbial populations as they evolve new proteins or other molecules.
Assistant professor of civil engineering describes her career in robotics as well as challenges and promises of human-robot interactions.
A new fabrication technique produces low-voltage, power-dense artificial muscles that improve the performance of flying microrobots.