Scientists have developed an advanced swarm navigation algorithm for cyborg insects that prevents them from becoming stuck ...

Cyborg cockroaches guided by ultraviolet light and motion feedback navigate obstacles autonomously, showing how noninvasive control can coordinate biological movement with electronic sensing.

Scientists from Japan and Singapore have created an advanced algorithm that helps swarms of cyborg insects move and coordinate more effectively. The concept of controlling insect swarms isn’t new.

Envisioning armies of electronically controllable insects is probably nightmare fuel for most people. But scientists think they could help rescue workers scour challenging and hazardous terrain. An ...

Instead of going to the time and trouble of designing and building tiny robots from scratch, some scientists are now turning existing insects into remote-control cyborgs. A new "assembly line" could ...

It sounds like the oddest conspiracy theory ever, but amazingly, the Pentagon is behind a plan to turn crickets, cicadas and katydids into cyborg chemical detectors to help protect soldiers from ...

Cyborg cockroaches that find earthquake survivors. A "robofly" that sniffs out gas leaks. Flying lightning bugs that pollinate farms in space. These aren't just buzzy ideas, they're becoming reality.

A study on the remote-controlled cockroach titled "Integration of body-mounted ultrasoft organic solar cell on cyborg insects with intact mobility" has been published in the journal npj Flexible ...

(A) A locomotion tracking system for cyborg insects, which uses a camera to track the insect's position, transmitting the positional data to the host for recording; (B) a host that acquires and ...

Researchers have engineered a system for creating remote controlled cyborg cockroaches, equipped with a tiny wireless control module that is powered by a rechargeable battery attached to a solar cell.