Swarm of cyborg cockroaches that act as hunting machines’ to be stuffed inside large robots before being let loose
CYBORG cockroaches could be put inside larger robots and released on missions, according to new research.
The cockroaches all have gadgets attached that allow them to be controlled by a computer.
This Madagascar hissing cockroach cyborg was involed in a different study in japan[/caption]Researchers at Nanyang Technological University in Singapore have demonstrated how they can command and direct the creatures.
A small army of the remote-controlled cockroaches was unleashed in a desert setting.
The test involved 20 Madagascar hissing roaches being mounted with small computers on their backs.
They were then controlled at the same time and made to move up a sandy slope.
Commands are sent to the small computer backpacks.
Electrodes are used to send the commands through to the roaches sensory organs.
Researchers can then tell the creatures to move left or right.
The cockroaches are still said to be able to over power their commands and chose their own way around an obstacle.
Scientists found that one cockroach would become the leader of the group.
This led to a swarm as all the cockroaches tried to follow the leader.
Cockroaches that fell onto their backs were lifted up by others in the group.
The study can be found online in the journal ariXiv.
“Navigating multi-robot systems in complex terrains has always been a challenging task.
“This is due to the inherent limitations of traditional robots in collision avoidance, adaptation to unknown environments, and sustained energy efficiency.
“In order to overcome these limitations, this research proposes a solution by integrating living insects with miniature electronic controllers to enable robotic-like programmable control, and proposing a novel control algorithm for swarming.
“Although these creatures, called cyborg insects, have the ability to instinctively avoid collisions with neighbors and obstacles while adapting to complex terrains, there is a lack of literature on the control of multi-cyborg systems,” the researchers wrote.