Researchers at the University of Pennsylvania and University of Michigan have created the world’s smallest fully programmable ...

Each robot costs only a single penny to manufacture. The robots could help advance everything from nanotechnology ...

A microrobot can operate independently in liquids for months. The development effort was high, but the costs for the robot ...

Two autonomous robots combine walking, flying, and rolling in rescue missions that would be too risky for humans.

Cell-sized robots can sense temperature, make decisions, and move autonomously using nanowatts of power—no external control ...

The swimming microbots can autonomously sense and navigate their surroundings, using temperature detection to monitor cell ...

Overview Robotics has become one of the most transformative fields in recent times, shaping work, manufacturing, healthcare, ...

Researchers at the University of Pennsylvania have developed the world's smallest fully programmable, autonomous robots, almost invisible to the naked eye.

Robots small enough to travel autonomously through the human body to repair damaged sites may seem the stuff of science ...

SEA will supply 22 KraitArrays to enhance uncrewed autonomous maritime surveillance and undersea detection operations.

The world's smallest fully programmable, autonomous robots have debuted at the University of Pennsylvania, sporting a brain developed at the University of Michigan.

Systems designed Darsi Pro for multi-sensor connectivity and cloud-based device management for robotics and other uses.