Daily news and current events for kids—
from Scholastic News Online®
 

When something brushes an animal’s whiskers, thousands of nerves at the whiskers' base send signals to the animal's brain.
Close Caption
LeoCH Studio / Flickr Select / Getty Images
Scientists Copy Cats
Artificial whiskers could help robots “see” their environments

By Cody Crane

Animals’ whiskers may look like just fancy mustaches, but these long, stiff hairs serve an important purpose. Cats, rats, seals, and other critters rely on them to sense their surroundings. These supersensitive feelers work so well, scientists have copied the idea.

A team of scientists in California created their own electronic whiskers (e-whiskers for short). They’re made from flexible fibers instead of hairs. The scientists hope the invention can help robots and other devices better interact with the world around them.

REAL-LIFE WHISKERS

How do whiskers work? Let’s say something brushes an animal’s whiskers. In a flash, thousands of nerves at its whiskers’ bases send signals to the brain. The brain uses the information to map the animal’s surroundings.

Much the way people use their fingertips, animals use their whiskers to explore their environment through touch. For example, a cat’s whiskers can detect small changes in the way air moves around furniture. This helps the feline move through rooms at night without bumping into anything.

Rats also spend a lot of time scurrying in dark places. Whiskers help them feel their way around in the pitch black. As they move, rats brush the tips of their whiskers across objects. They can tell whether a surface is smooth, bumpy, hard, or soft. Whiskers can even help them find a hidden hole to crawl through.

Seals have whiskers too. They help a seal sense ripples made by fish swimming in the water. That tells it the fish’s size, shape, and the direction in which it’s going. The seal can then chase down the biggest and tastiest meals.

SENSITIVE INVENTION

E-whiskers work like an animal’s whiskers. Their fibers are coated with nanotubes. These tiny, tube-shaped structures are too small to see without a microscope. They allow e-whiskers to both bend and carry electricity. Anything pushing against the whiskers creates an electrical signal that sends data to a computer.

Scientists tested the artificial whiskers by letting air flow over them. The e-whiskers were sensitive enough to form a 3-D picture of the moving air. The team thinks that in the future, e-whiskers could help machines monitor the environment. They could even help doctors more accurately measure a patient’s heartbeat and pulse rate.