Jupiter Moon Robot Coming? NASA Developing Burrowing Robot for Space Mission
Robots have long been instrumental in exploring the atmosphere, but a new species developed by researchers from the University of California Santa Barbara and the Georgia Institute of Technology is a special type of snake-like dig.
Such robots can examine internal structures or distant objects such as the surface of the Jupiter Moon.
NASA’s Robot Developed to Excavate the Jupiter Moon
Researchers are working with NASA to develop these robots that can land on sandy beaches before stretching far into space, especially Enceladus, the moon of the planet Jupiter, the BBC Science Focus reported.
In the design of the robot, scientists have developed a flexible mechanism that will overcome the opposing forces in the ground by operating in the underground space using their digging power. The robot will travel to sandy land by digging straight into the ground, much like a plant root system using a stretching tip to remove objects around it, reports Autoevolution.
The movement of the soft robots is done by remotely controlling the “muscles” on both sides and directing them to allow for sharp turns under winding paths. To navigate the horizontal surface, a robot will mimic a horizontal sand dune that blows the wind from its head in different ways so that it can withstand the sand from point A to point B – a process that experimenters call air fluidization, according to BBC Science. Focus. This process keeps solid sand particles in motion, similar to those found in liquids.
NASA Robot: Sandy Terrain Navigation Process
Therefore, an equal object that will travel horizontally through a sandy area will rise, says lead author Dr. Nicholas Naclerio in a study published in Science Daily. He added that it would be easier “to push the sand up and out of the road than to push it down.”
As a result, the robot can only wake up with a continuous flow of air. The lift force will then be calculated by increasing the air flow down to the robot. Such an asymmetric combination of forward and downward air flow can lead to controllable horizontal holes.
A soft robot built by a team of researchers is two inches [6 cm] in diameter and has a tip that extends to one meter. Researchers added that they had developed robots about two millimeters long and some 70 feet wide.
With its possible use of NASA spacecraft, a team of researchers noted that their robots have not yet been tested in space. According to Drs. At Naclerio, these robots can be powered by a small compressed gas, a chemical gas generator, or by scanning the surrounding gas.
And these robots can only work in sandy areas as air flow “only works on granular media,” explains Drs. Naclerio. However, rinse with water, he said, would work “on wet or mixed issues such as dirt and clay.”