Normally, people have difficulties recognizing objects from novel as compared to learned views, resulting in increased reaction times and errors. Recent studies showed, however, that this "view-dependency" can be reduced or even completely eliminated when novel views result from observer's movements instead of object movements. This observer movement benefit was previously attributed to extra-retinal (physical motion) cues. In two experiments, we demonstrate that dynamic visual information (that would normally accompany observer's movements) can provide a similar benefit and thus a potential alternative explanation. Participants performed sequential matching tasks for Shepard-Metzler-like objects presented via head-mount...
Recognition of a newly learned environment from both familiar and novel perspectives was investigate...
Unfamiliar viewpoints can hinder visual object recognition from 2D static images. Here, we ask wheth...
An object rotating in depth presents a coherent sequence of views but each view is seen only briefly...
Normally, people have difficulties recognizing objects from novel as compared to learned views, resu...
It is well known that people have difficulties in recognizing an object from novel views as compared...
It is well known that people have difficulties in recognizing an object from novel views as compared...
Previous studies have shown that observers encode object motion when they learn novel dynamic object...
Retinal images vary as observers move through the environment, but observers seem to have little dif...
AbstractWe compared the effect of motion cues on people’s ability to: (1) recognize dynamic objects ...
AbstractThis paper describes an experiment to distinguish between two theories of human visual objec...
Current research shows that human object recognition is sensitive to the learned order of familiar o...
AbstractActive exploration of large-scale environments leads to better learning of spatial layout th...
Recognizing objects across viewpoints presents the visual system with an extremely challenging task....
Background: Understanding the dynamics of our surrounding environments is a task usually attributed ...
Five experiments investigated whether observer locomotion provides specialized information facilitat...
Recognition of a newly learned environment from both familiar and novel perspectives was investigate...
Unfamiliar viewpoints can hinder visual object recognition from 2D static images. Here, we ask wheth...
An object rotating in depth presents a coherent sequence of views but each view is seen only briefly...
Normally, people have difficulties recognizing objects from novel as compared to learned views, resu...
It is well known that people have difficulties in recognizing an object from novel views as compared...
It is well known that people have difficulties in recognizing an object from novel views as compared...
Previous studies have shown that observers encode object motion when they learn novel dynamic object...
Retinal images vary as observers move through the environment, but observers seem to have little dif...
AbstractWe compared the effect of motion cues on people’s ability to: (1) recognize dynamic objects ...
AbstractThis paper describes an experiment to distinguish between two theories of human visual objec...
Current research shows that human object recognition is sensitive to the learned order of familiar o...
AbstractActive exploration of large-scale environments leads to better learning of spatial layout th...
Recognizing objects across viewpoints presents the visual system with an extremely challenging task....
Background: Understanding the dynamics of our surrounding environments is a task usually attributed ...
Five experiments investigated whether observer locomotion provides specialized information facilitat...
Recognition of a newly learned environment from both familiar and novel perspectives was investigate...
Unfamiliar viewpoints can hinder visual object recognition from 2D static images. Here, we ask wheth...
An object rotating in depth presents a coherent sequence of views but each view is seen only briefly...