How the brain easily deciphers motion in Japanese line drawing

March 19, 2010 By Leave a Comment

London, Mar 18 (ANI): Using brain scans, scientists at Kyoto University, Japan, have found why line drawings to show “implicit motion”, used by an 18th-century Japanese artist, work so well.

Naoyuki Osaka admired line drawings by Hokusai Katsushika, and found that instead of using blur to suggest movement, as much modern art has done since the advent of photography, Katsushika created motion by drawing bodies in highly unstable positions.

And the technique is thought to work because the brain “fills in” the effects of gravity pulling the bodies down.

In earlier research it was shown that blurred photographs stimulate the same regions of the visual cortex as real-life motion, including the extrastriate visual cortex.

To discover whether sketches of unstable bodies would also activate these regions, Osaka showed Japanese students Katsushika”s drawings while scanning their brains with functional MRI.

The scans revealed that drawings depicting motion did indeed prompt activity in the extrastriate visual cortex, unlike those of people or objects in static positions. Osaka concludes that there is a “common neural pathway” for interpreting implicit motion in art that is similar to the pathway used for perceiving real-life motion.

Patrick Johnston, a cognitive neuroscientist at Swinburne University of Technology in Melbourne, Australia, said that these findings could help “unlock how the brain processes visual information,” reports New Scientist.

However, Oron Catts of SymbioticA, a biological arts centre at the University of Western Australia in Perth, warned that the influence of culture must not be ignored.

He suggested that Japanese people may perceive the motion more vividly than people from other cultures because they are accustomed to this type of art.

“In Japanese culture, people are trained to read those cartoon images as the representation of movement,” he added. (ANI)

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Next-gen DVD that can hold 2,000 movies unveiled

May 21, 2009 By Leave a Comment

Melbourne, May 21 (ANI): A new type of disc that stores 10,000 times more data than current DVDs has been unveiled by Australia researchers.

The revolutionary disc could be on the market within a decade, researchers reported in the journal Nature.

The discs store 1.6 terabytes of data, pipping the capacity of current DVD and Blu-ray discs which hold up to 50 gigabytes.

A standard DVD recorder uses light of a single wavelength to ‘burn’ data onto the surface of the disc, reports ABC Online.

Researchers from Swinburne University of Technology in Melbourne found that by adding gold nanorods to the disc they were able to increase its capacity.

The nanorods react to light according to their shape – thus allowing researchers to record information using light of different wavelengths, or colours, on the same location on the disc.

The researchers also used polarisation, the angle of the light’s electric field, to record data.

“The polarisation can be rotated 360 degrees,” says paper co-author Dr James Chon.

“So for example, we were able to record at zero degree polarisation. Then on top of that, we were able to record another layer of information at 90 degrees polarisation, without them interfering with each other,” he added.

Professor Min Gu, Director of the Centre for Micro-Photonics at Swinburne, who was also involved in the research, said: “We have created a new recording device that can respond to different colour and different polarisation. By using these properties we can use more of the disc.”

In their paper, the researchers were able to record three layers of information, using three different wavelengths and two polarisations.

Since publication, the authors have recorded 10 layers, and they believe it is possible to record 100 layers onto a single disc. (ANI)

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