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Tuesday, April 09, 2013
Camera system Creates High-resolution 3-D Images From A Kilometre Away


A team of Heriot-Watt University Edinburgh, has advanced laser technology so that high-resolution, 3-D images precise to the millimetre can be taken from up to a kilometre away.

While a standard camera takes flat, 2-D picturesm, the team obtains 3-D information, such as the distance to a far-away object, by bouncing a laser beam off the object and measuring how long it takes the light to travel back to a detector. The technique, called time-of-flight (ToF), is already used in machine vision navigation systems for autonomous vehicles and other applications, but many current ToF systems have a relatively short range and struggle to image certain objects.

Led by Professor Gerald Buller from the School of Engineering and Physical Sciences, the Heriot-Watt team has developed a new system that captures laser pulses from 'uncooperative' objects that do not easily reflect laser pulses, such as fabric, making it useful in a wide variety of field situations.

The new system works by sweeping a low-power infrared laser beam rapidly over an object. It then records, pixel-by-pixel, the round-trip flight time of the photons in the beam as they bounce off the object and arrive back at the source. The system can resolve depth on the millimetre scale over long distances using a detector that can 'count' individual photons.

The primary use of the system is likely to be scanning static, human-made objects, such as vehicles. With some modifications to the image-processing software, it could also determine their speed and direction.



The scanner is particularly good at identifying objects hidden behind clutter, such as foliage. However, it cannot render human faces, instead drawing them as dark, featureless areas as, at the long wavelength used by the system, human skin does not bounce back a large enough number of transmitted photons to obtain a depth measurement.

The light the team has chosen has a wavelength of 1,560 nanometres, 'redder' than visible light, and thus it travels more easily through the atmosphere, is not drowned out by sunlight, and is safe for eyes. Many previous ToF systems could not detect the extra-long wavelengths that the team's device is specially designed to sense.

Outside of object identification, photon-counting depth imaging could be used for a number of scientific purposes, including the remote examination of the health and volume of vegetation and the movement of rock faces, to assess potential hazards. Ultimately, McCarthy says, it has the potential to scan and image objects located as far as 10 kilometre away.

A believe that a lightweight, fully portable scanning depth imager is possible and could be a product in less than five years, according to Dr Aongus McCarthy, Research Fellow at Heriot-Watt University.


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