One idea of how our visual systems process the information obtained from our environment is with ensemble perception by means of summary statistics. Here we present findings from a study on whether higher-order statistical properties are encoded with complex contours, our hypothesis being that they would be encoded. We replicated the feature distribution learning (FDL) method described by Chetverikov, Campana, and Kristjánsson (2016), which exploits the priming of pop-out effect, and relies heavily on role-reversal effects. We used a visual search task in which eleven observers searched for an oddly formed shape among 35 distractors. The stimuli were various shapes derived from the Validated Circular Shape Space (Li, Liang, Lee, and Barense...
Correctly interpreting a natural image requires dealing properly with the effects of occlusion, and ...
Detecting objects in visual scenes is an important function of the visual system. Studies of contou...
What determines individuals’ efficacy in detecting regularities in visual statistical learning? Our ...
The data from the experiments reported in this paper is available at https://osf.io/3apcv/.We recent...
Humans can rapidly estimate the statistical properties of groups of stimuli, including their average...
Chetverikov, Campana, and Kristjansson (2017) used visual search to demonstrate that human observers...
What are the building blocks of our visual representations? Whatever we look at, the things we see w...
Contains fulltext : 207061.pdf (publisher's version ) (Open Access)Objects have a ...
Our environment has a variety of different features that our visual system must encode every day. Th...
Funding Information: S.H.R. and A.K. were supported by Grant IRF #173947-052 from the Icelandic rese...
Our senses provide us with a rich experience of a detailed visual world, yet the empirical results s...
The goal of this study was to investigate whether people are able to encode the probability distribu...
ABSTRACT—Statistical learning has been widely proposed as a mechanism by which observers learn to de...
ABSTRACT—Statistical learning has been widely proposed as a mechanism by which observers learn to de...
We report the results of an experimental study in which human subjects are asked to demarcate the co...
Correctly interpreting a natural image requires dealing properly with the effects of occlusion, and ...
Detecting objects in visual scenes is an important function of the visual system. Studies of contou...
What determines individuals’ efficacy in detecting regularities in visual statistical learning? Our ...
The data from the experiments reported in this paper is available at https://osf.io/3apcv/.We recent...
Humans can rapidly estimate the statistical properties of groups of stimuli, including their average...
Chetverikov, Campana, and Kristjansson (2017) used visual search to demonstrate that human observers...
What are the building blocks of our visual representations? Whatever we look at, the things we see w...
Contains fulltext : 207061.pdf (publisher's version ) (Open Access)Objects have a ...
Our environment has a variety of different features that our visual system must encode every day. Th...
Funding Information: S.H.R. and A.K. were supported by Grant IRF #173947-052 from the Icelandic rese...
Our senses provide us with a rich experience of a detailed visual world, yet the empirical results s...
The goal of this study was to investigate whether people are able to encode the probability distribu...
ABSTRACT—Statistical learning has been widely proposed as a mechanism by which observers learn to de...
ABSTRACT—Statistical learning has been widely proposed as a mechanism by which observers learn to de...
We report the results of an experimental study in which human subjects are asked to demarcate the co...
Correctly interpreting a natural image requires dealing properly with the effects of occlusion, and ...
Detecting objects in visual scenes is an important function of the visual system. Studies of contou...
What determines individuals’ efficacy in detecting regularities in visual statistical learning? Our ...