Q&A: Dina Katabi on a “smart” home with actual intelligence
MIT professor is designing the next generation of smart wireless devices that will sit in the background, gathering and interpreting data, rather than being worn on the body.
MIT professor is designing the next generation of smart wireless devices that will sit in the background, gathering and interpreting data, rather than being worn on the body.
The results may help engineers develop a way to inject drugs without needles.
Prosthetic enables a wide range of daily activities, such as zipping a suitcase, shaking hands, and petting a cat.
The design could help restore motor function after stroke, enhance virtual gaming experiences.
The design could lead to conformable wearable monitors to track skin cancer and other conditions.
System Design and Management's industry and certificate director is honored for his work in Covid-19 response.
Jessica Xu, a senior studying mechanical engineering, draws upon her skills as an artist to develop medical devices and assistive technologies.
Wireless sensing technology could help improve patients’ technique with inhalers and insulin pens.
Associate Professor Thomas Heldt finds inspiration where fundamental physical principles intersect with human health.
Inspired by personal tragedy, graduate student Hyunwoo Yuk used his background in soft materials to develop a bioadhesive tape for repairing damaged tissue.
The patch, which can be folded around surgical tools, may someday be used in robotic surgery to repair tissues and organs.
MIT mechanical engineers have developed technologies to help hospitals around the world provide life-saving oxygen to patients with Covid-19 and other respiratory illnesses.
MIT researchers propose a design to overcome a major challenge in hydrocephalus catheters — clogging — by leveraging catheter geometry.
The prototype mask, which includes an N95 filter, can be easily sterilized and worn many times.
Removable adhesive could make it easier for surgeons to close up internal wounds.