èƵ

Bendy camera the width of a human hair can take accurate 3D images

A tiny flexible camera made from an extremely thin fibre-optic cable can transmit accurate 3D images in real time. It could eventually be used in surgery or surveillance
picture of setting it up in the lab
The camera being set up in the lab
Kevin Mitchell

A fibre-optic cable the thickness of a human hair can transmit accurate 3D images in real time, creating a tiny flexible camera.

at the University of Glasgow, UK, and his colleagues have developed a system several orders of magnitude smaller than pre-existing cameras based on fibre-optic cable. The system uses a cable that is 40 centimetres long and 50 micrometres in diameter. It can take 3D pictures of objects up to 2.5 metres away.

The camera works similarly to a lidar scanner, which gauges distance by sending out pulses of light and measuring how long they take to bounce back. Light sent down the fibre-optic cable does much the same in miniature, determining the size and shape of an object to a millimetre’s accuracy. The camera makes more than 23,000 of these measurements every second. “That allows us to build up a 3D image of whatever’s at the end of the fibre,” says Padgett.

“The problem [with these] fibres is that a narrow pulse does get smeared out,” says Jurgen Schmoll at Durham University, UK. He says what is good about the new device is that the team accounts for this by sending a pulse from a calibration laser through the cable to see how it distorts.

“It’s easy to say it has medical applications, but I think it also has applications in industrial inspection, and potentially surveillance,” says Schmoll. Padgett is currently working on threading the fibre through a needle as a way of deploying the cable, which could allow it to penetrate human tissue.

The current version of the system uses a 60-centimetre by 60-centimetre laser projector to create the light pulse, but Padgett hopes to replace this with one half the size.

Padgett also wants to extend the length of the fibre to 2 metres or more, although that would require using a different type of fibre that would give higher resolution in the middle of the image and lower resolution at the edges. “That might not be a bad thing,” he says. “That’s what the [human] eye does.”

Reference:

Topics: photography / Technology