A new kind of microrobot could change the world

  • September 27, 2021

By changing the way people think about electronics, a new type of robot could revolutionise the way we interact with them.

It’s a concept known as microroobots and it’s already here in the form of a tiny, self-assembling robot that was made by researchers at Carnegie Mellon University.

The new robot, which weighs only about a gram, can be made to move autonomously by attaching its microphone and sensors to its body. 

“We’re building a microcomputer with a microphone on its back and it has a computer on the front that is powered by a battery,” said Professor of Electrical Engineering, Paul Rizzo, from Carnegie Mellon.

The microroboobot can detect objects and react to them using a system called the MEMS. 

The MEMS uses an organic material called zinc oxide to act as a conductive contact and is made up of layers of graphene.

 “This is a really novel material, it’s like a sponge, it works like an electrolyte in that you can make the material conductive, which then acts like a conductor, which is good for electronics, but also for sensing and for manipulating the environment,” said Prof Rizzoo.

The MEMs are made up mainly of carbon, a non-conductive material, and zinc oxide.

They are incredibly flexible and can move around without needing to be held in place.

The robot has been built using a number of materials including titanium, aluminum, and a plastic, which makes it incredibly light.

It can even walk without batteries and has a small battery pack that can store up to 30 minutes of use. 

To create the robot, the researchers created the robot using 3D printing. 

Carnegie Mellon’s robotic lab was involved in the creation of the MEMs. 

For their research, the team was able to create the MEM using the latest in computer science and robotics technology. 

It was built using two main components: an Arduino microcontroller, which contains the computer, and an Arduino Pro Mini computer chip. 

One of the chip was based on the latest chip technology and was developed by Teknix.

It was used to create a device called a 3D Printer, which allows 3D objects to be printed with the use of a 3-D printer. 

While the 3D printer was used for printing, a custom design was created to mimic the shape of the microrobe robot. 

These parts can be reused for other types of 3D printers and 3D modeling software. 

This allowed the team to create two different types of micromotor. 

In the first, the micromotion was done by adding a motor to the device to control its movement. 

Then they added another motor to help control the movement of the device. 

Once the motor was built, the device could be used to manipulate the microparticle. 

Using the micROM, the robot was able be controlled from a smartphone, allowing the researchers to record video, create an image, and even turn on lights. 

A video from Carnegie MCLA shows the robot reacting to a light source using the micROBOBOT technology.

The second type of micROM used for the device is based on a more traditional technology called MEMS, which was developed at MIT.

It uses a silicon nanostructure, which means that it can bend, rotate, and deform with very high precision.

The team found that the MEM was able of moving around, and was able even to bend the microboobot in two directions, which allowed it to move about the microneedle without touching the ground.

“In order to make the microscopic microrobos, we needed to create some way to control their movement, and that’s what the MEM is doing,” said Paul Rizso, Professor of Mechanical Engineering, at Carnegie MCL.

“It’s like we’re doing a lot of maths in our head, it is the equivalent of using the computer to play the piano.”

The researchers have also shown that it is possible to build a device that can be used as a sensor to control the micronobots movement, which would be useful in applications such as monitoring climate change.

“This technology is incredibly powerful, it can control micro-micro devices to any size and any location,” said Dr Rizto.

“We’re just beginning to scratch the surface of microobotic manipulation, and we think this is going to be an important breakthrough for electronics and robotics in the next few years.” 

The team are also working on the development of an application for this technology that would allow microrobs to be used in the field of energy storage. 

More stories from around the world on the BBC World Service

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