Subscribe free to our newsletters via your
. Space Industry and Business News .




TECH SPACE
Seeing depth through a single lens
by Staff Writers
Cambridge MA (SPX) Aug 09, 2013


Research by Antony Orth and Kenneth Crozier (pictured) enables photographers and microscopists to quickly create 3D images without special equipment. (Photo by Eliza Grinnell.)

Researchers at the Harvard School of Engineering and Applied Sciences (SEAS) have developed a way for photographers and microscopists to create a 3D image through a single lens, without moving the camera.

Published in the journal Optics Letters, this improbable-sounding technology relies only on computation and mathematics-no unusual hardware or fancy lenses. The effect is the equivalent of seeing a stereo image with one eye closed.

That's easier said than done, as principal investigator Kenneth B. Crozier, John L. Loeb Associate Professor of the Natural Sciences, explains.

"If you close one eye, depth perception becomes difficult. Your eye can focus on one thing or another, but unless you also move your head from side to side, it's difficult to gain much sense of objects' relative distances," Crozier says.

"If your viewpoint is fixed in one position, as a microscope would be, it's a challenging problem."

Offering a workaround, Crozier and graduate student Antony Orth essentially compute how the image would look if it were taken from a different angle. To do this, they rely on the clues encoded within the rays of light entering the camera.

"Arriving at each pixel, the light's coming at a certain angle, and that contains important information," explains Crozier.

"Cameras have been developed with all kinds of new hardware-microlens arrays and absorbing masks-that can record the direction of the light, and that allows you to do some very interesting things, such as take a picture and focus it later, or change the perspective view. That's great, but the question we asked was, can we get some of that functionality with a regular camera, without adding any extra hardware?"

The key, they found, is to infer the angle of the light at each pixel, rather than directly measuring it (which standard image sensors and film would not be able to do). The team's solution is to take two images from the same camera position but focused at different depths. The slight differences between these two images provide enough information for a computer to mathematically create a brand-new image as if the camera had been moved to one side.

By stitching these two images together into an animation, Crozier and Orth provide a way for amateur photographers and microscopists alike to create the impression of a stereo image without the need for expensive hardware. They are calling their computational method "light-field moment imaging"-not to be confused with "light field cameras" (like the Lytro), which achieve similar effects using high-end hardware rather than computational processing.

Importantly, the technique offers a new and very accessible way to create 3D images of translucent materials, such as biological tissues.

Biologists can use a variety of tools to create 3D optical images, including light-field microscopes, which are limited in terms of spatial resolution and are not yet commercially available; confocal microscopes, which are expensive; and a computational method called "shape from focus," which uses a stack of images focused at different depths to identify at which layer each object is most in focus.

That's less sophisticated than Crozier and Orth's new technique because it makes no allowance for overlapping materials, such as a nucleus that might be visible through a cell membrane, or a sheet of tissue that's folded over on itself. Stereo microscopes may be the most flexible and affordable option right now, but they are still not as common in laboratories as traditional, monocular microscopes.

"This method devised by Orth and Crozier is an elegant solution to extract depth information with only a minimum of information from a sample," says Conor L. Evans, an assistant professor at Harvard Medical School and an expert in biomedical imaging, who was not involved in the research.

"Depth measurements in microscopy are usually made by taking many sequential images over a range of depths; the ability to glean depth information from only two images has the potential to accelerate the acquisition of digital microscopy data."

"As the method can be applied to any image pair, microscopists can readily add this approach to our toolkit," Evans adds. "Moreover, as the computational method is relatively straightforward on modern computer hardware, the potential exists for real-time rendering of depth-resolved information, which will be a boon to microscopists who currently have to comb through large data sets to generate similar 3D renders. I look forward to using their method in the future."

The new technology also suggests an alternative way to create 3D movies for the big screen.

"When you go to a 3D movie, you can't help but move your head to try to see around the 3D image, but of course it's not going to do anything because the stereo image depends on the glasses," explains Orth, a Ph.D. student in applied physics.

"Using light-field moment imaging, though, we're creating the perspective-shifted images that you'd fundamentally need to make that work-and just from a regular camera. So maybe one day this will be a way to just use all of the existing cinematography hardware, and get rid of the glasses. With the right screen, you could play that back to the audience, and they could move their heads and feel like they're actually there."

For the 3D effect to be noticeable, the camera aperture must be wide enough to let in light from a wide range of angles so that the differences between the two images focused at different depths are distinct. However, while a cellphone camera proves too small (Orth tried it on his iPhone), a standard 50 mm lens on a single-lens reflex camera is more than adequate.

.


Related Links
Harvard School of Engineering and Applied Sciences
Space Technology News - Applications and Research






Comment on this article via your Facebook, Yahoo, AOL, Hotmail login.

Share this article via these popular social media networks
del.icio.usdel.icio.us DiggDigg RedditReddit GoogleGoogle








TECH SPACE
3D IR Images Now in Full Color
Berkeley CA (SPX) Aug 09, 2013
An iconic moment in the history of Hollywood movie magic was born in the 1939 film The Wizard of Oz when Judy Garland as Dorothy Gale stepped out of the black and white world of Kansas into the rainbow colored world of Oz. An iconic moment in the history of infrared imaging may have been born with the announcement of the first technique to offer full color IR tomography. A collaboration be ... read more


TECH SPACE
New 'weird' material may be new class of solids, researchers say

Large Area Picosecond Photodetectors push timing envelope

Seeing depth through a single lens

Altering organic molecules' interaction with light

TECH SPACE
New Military Communications Satellite Built By Lockheed Martin Launches

US Navy Poised to Launch Lockheed Martin-Built Secure Communications Satellite for Mobile Users

Northrop Grumman Moves New B-2 Satellite Communications Concept to the High Ground

Canada links up on secure U.S. military telecoms network

TECH SPACE
Next Ariane 5 is readied to receive its dual-satellite payload

Russia to restart Proton rocket launches after crash

Japanese rocket takes supplies, robot to space station

SpaceX Awarded Launch Reservation Contract for Largest Canadian Space Program

TECH SPACE
Satellite tracking of zebra migrations in Africa is conservation aid

'Spoofing' attack test takes over ship's GPS navigation at sea

Orbcomm Globaltrak Completes Shipment Of Fuel Monitoring Solution In Afghanistan

Lockheed Martin GPS III Satellite Prototype To Help Cape Canaveral Air Force Station Prep For Launch

TECH SPACE
Chinese jetliner's first flight set back a year: state media

South Korea resumes bidding in jet fighter deal

Lockheed Martin to Offer Universal Mission Equipment Package for US Army Helicopters

Bahrain eyes Eurofighter: BAE

TECH SPACE
Speed limit set for ultrafast electrical switch

NRL Researchers Discover Novel Material for Cooling of Electronic Devices

Nanotechnology breakthrough is big deal for electronics

Broadband photodetector for polarized light

TECH SPACE
Lockheed Completes Solar UV Imager For GOES-R Enviro Tests

GOES-R Satellite Magnetometer Boom Deployment Successful

NASA's Van Allen Probes Discover Particle Accelerator in the Heart of Earth's Radiation Belts

Seeing Photosynthesis from Space: NASA Scientists Use Satellites to Measure Plant Health

TECH SPACE
Pollution blamed for drop in Beijing tourism: state media

Poisoned dumpling trial held in China

Thai firm understating oil slick fallout: Greenpeace

Oil spill hits Thai tourist island




The content herein, unless otherwise known to be public domain, are Copyright 1995-2014 - Space Media Network. AFP, UPI and IANS news wire stories are copyright Agence France-Presse, United Press International and Indo-Asia News Service. ESA Portal Reports are copyright European Space Agency. All NASA sourced material is public domain. Additional copyrights may apply in whole or part to other bona fide parties. Advertising does not imply endorsement,agreement or approval of any opinions, statements or information provided by Space Media Network on any Web page published or hosted by Space Media Network. Privacy Statement