Managing traffic in space
Associate Professor Richard Linares is helping satellites safely navigate in increasingly congested orbits.
Associate Professor Richard Linares is helping satellites safely navigate in increasingly congested orbits.
New MIT work advances the growing field of ionotronics, in which data are transferred through ions, potentially providing a bridge between electronics and biological tissue.
Researchers are developing hardware and algorithms to improve collaboration between divers and autonomous underwater vehicles engaged in maritime missions.
Electrofluidic fibers mimic how natural muscle fibers bundle, and could enable compact, silent robotic and prosthetic systems.
This new approach adapts to decide which robots should get the right of way at every moment, avoiding congestion and increasing throughput.
By moving their hands and fingers, users can direct a robot to play piano or shoot a basketball, or they can manipulate objects in a virtual environment.
Participants learn how laser “fingerprinting” can help identify materials in fields ranging from law enforcement to art restoration.
With this new technique, a robot could more accurately detect hidden objects or understand an indoor scene using reflected Wi-Fi signals.
Academia-industry relationship is an early-stage accelerator, supporting professional progress and research.
A new hybrid system could help robots navigate in changing environments or increase the efficiency of multirobot assembly teams.
In 16.85 (Design and Testing of Autonomous Vehicles), AeroAstro students build software that allows autonomous flight vehicles to navigate unknown environments.
Lincoln Laboratory intern Ivy Mahncke developed and tested algorithms to help human divers and robots navigate underwater.
An AI control system co-developed by SMART researchers enables soft robotic arms to learn a broad set of motions once and adapt instantly to changing conditions without retraining.
MagMix, an onboard mixing device, enables scalable manufacturing of 3D-printed tissues.
From robotics to apps like “NerdXing,” senior Julianna Schneider is building technologies to solve problems in her community.