New electronic skin could give robots human-like touch

Science

New electronic skin could give robots human-like touch

A new type of electronic skin whose sense of touch rivals that of humans could allow robots to identify an object by the way it feels.

Newscom/File

This handout photo shows an optical image of a fully fabricated e-skin device with nanowire active matrix circuitry. Each dark square represents a single pixel. Researchers have engineered electronic skin that can sense touch, in a major step towards next-generation robotics. The lab-tested material responds to almost the same pressures as human skin and with the same speed.

By Michelle Bryner TechNewsDaily Contributor

Sept. 14, 2010, 6:39 p.m. ET

A new type of artificial skin with a sense of touch that rivals the human variety could lead to next-generation robotic and prosthetic devices.

When covered with the electronic skin, or "e-skin" as the researchers call it, would be able to touch and move objects with the appropriate force. For example, the e-skin would allow the robot to sense the difference between an egg and a frying pan and adjust the force of its grip accordingly.

So far the researchers have made a prototype device and shown that the material can detect a wide range of pressures 鈥� 0 to 15 kilopascals, which accounts for typical daily activities.

IN PICTURES: Developments in robotics

鈥淭here have been a lot of advances in robotics. But one of the issues is the ability to be able to sense an object, and, knowing whether it鈥檚 hard or soft, [and] how to be able to grab it,鈥� said lead study researcher Ali Javey, a professor at the University of California at Berkeley.

鈥淚f we ever wanted a robot that could unload the dishes, for instance, we'd want to make sure it doesn't break the wine glasses in the process."

Previous attempts to make artificial skin have relied on organic materials, which eat up a lot of power. This means heavy batteries, which isn鈥檛 ideal for portable devices, such as robots and .

To make their e-skin, Javey and his colleagues used inorganic materials. While typically too brittle to conform to robotic limbs, Javey and his team used tiny wires, called , of an inorganic material, turning the brittle material into a flexible one.

The team used a printing process to assemble the nanowires into a thin sheet of plastic. The e-skin was then covered with pressure-sensitive rubber pixels. Each pixel is connected to an electronic 鈥渟witch鈥� made out of hundreds of nanowires. Touching the e-skin causes the rubber to deform, which 鈥渇lips鈥� the switch of one of the pixels.

The researchers have not yet integrated their e-skin with a computer chip, which would be needed to interpret the information from the electronic switches.

Longer term, the researchers envision the e-skin being used with prosthetic limbs. Instead of a computer chip, however, the electronic skin could interface with the human brain directly.

Javey and his colleagues detail their development online Sept. 12 in Nature Materials.

IN PICTURES: Developments in robotics

海角大神

Why is 海角大神 Science in our name?

Your subscription makes our work possible.