AbstractIt has been recently shown that adaptation to gratings oscillating at high-frequency compress perceived duration of subsequent, slower, stimuli displayed in the same location. These temporal distortions are spatially selective (Johnston et al., 2006), coded in spatiotopic coordinates (Burr et al., 2007, 2011), and do not result from changes in perceived speed of the adapted stimulus. These findings are important as they support the idea of a distributed framework of multiple mechanisms processing event time across the visual field. However, time distortions induced by motion adaptation have been tested only with simple translational motion, rather than more complex motions. Here we used a similar technique to Burr and coll. (2007) t...
YesIn conflict with historically dominant models of time perception, recent evidence suggests that t...
Adaptation to the duration of a visual stimulus causes the perceived duration of a subsequently pres...
Nervous systems adapt to the prevailing sensory environment, and the consequences of this adaptation...
It is unclear whether our brain extracts and processes time information using a single-centralized m...
There is a growing body of evidence pointing to the existence of modality-specific timing mechanisms...
AbstractPrevious research has shown that prior adaptation to a spatially circumscribed, oscillating ...
There is a growing body of evidence pointing to the existence of modality-specific timing mechanisms...
A fundamental question about the perception of time is whether the neural mechanisms underlying temp...
SummaryA fundamental question about the perception of time is whether the neural mechanisms underlyi...
It is well established that the apparent duration of moving visual objects is greater at higher as c...
A. Bruno, I. Ayhan, and A. Johnston (2010) have recently challenged our report of spatiotopic select...
A key question for temporal processing research is how the nervous system extracts event duration, d...
AbstractDuring adaptation to a moving pattern, perceived speed decreases. Thus we know that the adap...
Visual adaptation is a critical and ubiquitous mechanism that occurs for any stimulus feature and in...
Tomassini A, Gori M, Burr D, Sandini G, Morrone MC. Active movement restores veridical event-timing ...
YesIn conflict with historically dominant models of time perception, recent evidence suggests that t...
Adaptation to the duration of a visual stimulus causes the perceived duration of a subsequently pres...
Nervous systems adapt to the prevailing sensory environment, and the consequences of this adaptation...
It is unclear whether our brain extracts and processes time information using a single-centralized m...
There is a growing body of evidence pointing to the existence of modality-specific timing mechanisms...
AbstractPrevious research has shown that prior adaptation to a spatially circumscribed, oscillating ...
There is a growing body of evidence pointing to the existence of modality-specific timing mechanisms...
A fundamental question about the perception of time is whether the neural mechanisms underlying temp...
SummaryA fundamental question about the perception of time is whether the neural mechanisms underlyi...
It is well established that the apparent duration of moving visual objects is greater at higher as c...
A. Bruno, I. Ayhan, and A. Johnston (2010) have recently challenged our report of spatiotopic select...
A key question for temporal processing research is how the nervous system extracts event duration, d...
AbstractDuring adaptation to a moving pattern, perceived speed decreases. Thus we know that the adap...
Visual adaptation is a critical and ubiquitous mechanism that occurs for any stimulus feature and in...
Tomassini A, Gori M, Burr D, Sandini G, Morrone MC. Active movement restores veridical event-timing ...
YesIn conflict with historically dominant models of time perception, recent evidence suggests that t...
Adaptation to the duration of a visual stimulus causes the perceived duration of a subsequently pres...
Nervous systems adapt to the prevailing sensory environment, and the consequences of this adaptation...