Experts add some color to 'the dress' debate
News May 14, 2015
Psychologists from Bradford and Giessen comment on the confusion over the colour of the social media sensation #TheDress
In the days following publication of “The Dress“ psychologist Karl Gegenfurtner from the University of Giessen in Germany and Marina Bloj from the University of Bradford in the UK, carried out an experiment asking 15 people to view the photograph on a well-calibrated color screen under controlled lighting.
Professor Marina Bloj, Professor of Visual Perception within the Bradford School of Optometry and Vision Sciences at the University of Bradford, said: “When the dress saga started I was visiting my colleagues in Germany to develop some new color vision experiments and we had an ideal opportunity to use the set-up to do some rigorous studies on this polemical image.
“The confusion would have never occurred if it was not for the special colors present in the photograph, it would not have happened with other colored dresses. The bluish and yellow coloring in the image correspond to colors that we experience naturally during the course of the day, they lay on what is known as the daylight locus.
“We can normally discount this illumination effect, but the in the case of #TheDress not enough information is available in the photograph so different people make unconsciously different assumptions and as a result perceive the dress differently. Some see it as a blue dress under warm light, others as a white dress under cool illumination.
As part of the experiment the team adjusted the color of a disc to correspond to the colors the participants saw in the photograph. Participants reported seeing a continuous range of shades from light blue to dark blue, rather than the two dominant colors reported so far - white and blue.
The question should thus not be whether the dress is blue or white, but whether it is light blue or dark blue,” says Prof. Dr. Karl Gegenfurtner, department of psychology at Justus Liebig University Giessen (JLU). “Despite the continuous choice of matching colors, observers are consistent in calling the dress ‘white’ when their match lies above a certain brightness and ‘blue’ when it lies below.”
The team discovered that all test subjects basically perceived similar color shades, only varying in lightness. These perceived colors have something in common, they all are part of the so-called daylight locus; depending on the position of the sun during the course of the day, daylight tends to be rather bluish (at noon) or rather yellowish (in the morning and in the evening).
Marina said: “Usually, people are able to unconsciously filter the effect of bluish or yellowish light with the result that everyone perceives the same colors. To do so, we require reference points, otherwise known as colors, which are located outside the daylight locus. However these colors (generally red or green) are completely missing in the case of #TheDress. Therefore, the photograph does not provide relevant information on the scene’s luminance levels.”
Various studies have proven that people have difficulties perceiving colors along the daylight locus correctly. Test subjects are for instance rarely able to set a completely neutral grey on the screen without tending to a slightly bluish or yellowish tinge. Deviations concerning red or green tendencies on the contrary hardly ever occur, which, in turn, explains why a red and green coloring of the dress on a screen would look the same color to participants.
The research results are published in the journal Current Biology.
Note: Material may have been edited for length and content. For further information, please contact the cited source.
Karl R. Gegenfurtner, Marina Bloj, Matteo Toscani. The many colours of ‘the dress.' Current Biology, Published Online May 14 2015. doi: 10.1016/j.cub.2015.04.043
Researchers Democratize Neuroscience by Making it Easier to Share Brain Imaging DataNews
Researchers have developed a set of tools to make one critical area of big data research — that of our central nervous system — easier to share.READ MORE
Neuroscientists Identify The Retrosplenial Cortex as an Integrator of Vision and Head MovementNews
Study highlights role of primary visual cortex in integrating head and visual movement signalsREAD MORE
So Hot it Hurts: Ion channel trio underlying painful heat sensation foundNews
Researchers show that acute noxious heat sensing in mice depends on a triad of transient receptor potential (TRP) ion channels: TRPM3, TRPV1, and TRPA1.READ MORE