We have recently shown that stimulus acceleration affects subsequent preferred speed and tuning widths of macaque area MT neurons (A. Schlack, B. Krekelberg, & T. D. Albright, 2007). Given the close link between area MT and speed perception, this predicts that speed perception should depend on the acceleration context. Here, we show that this is indeed the case for both speed discrimination and speed perception. Specifically, speed discrimination thresholds improve in an acceleration context but absolute speeds are more underestimated than in a deceleration context. In line with our physiological data, these changes can be understood in terms of speed-dependent adaptation mechanisms in MT and do not require an explicit acceleration dep...
Psychophysical studies have demonstrated that humans are less sensitive to image acceleration than t...
Motion at constant speed in the world maps into retinal motion very differently for lateral motion a...
AbstractMotion transparency requires that the visual system distinguish different motion vectors and...
Studies of individual neurons in area MT have traditionally investigated their sensitivity to consta...
Neurons in the mediotemporal area of the macaque (MT) respond to accelerations of visual stimuli wit...
Area MT in extrastriate visual cortex is widely believed to be responsible for the perception of obj...
Visual motion on the macaque retina is processed by direction- and speed-selective neurons in extras...
A car driving through the fog appears tomovemore slowly than one driving on a clear and sunny day. I...
Neurons in the mediotemporal area of the macaque (MT) respond to accelerations of visual stimuli wit...
The visual world is processed in the brain as a series of characteristics, where the information is ...
& Motion is fully described by a direction and a speed. The processing of direction information ...
AbstractDuring adaptation to a moving pattern, perceived speed decreases. Thus we know that the adap...
Visual systems adapt to the prevailing image conditions. This improves the ability to discriminate b...
noTo investigate the underlying nature of the effects of transcranial magnetic stimulation (TMS) on ...
The ability to estimate the speed of an object irrespective of size or texture is a crucial function...
Psychophysical studies have demonstrated that humans are less sensitive to image acceleration than t...
Motion at constant speed in the world maps into retinal motion very differently for lateral motion a...
AbstractMotion transparency requires that the visual system distinguish different motion vectors and...
Studies of individual neurons in area MT have traditionally investigated their sensitivity to consta...
Neurons in the mediotemporal area of the macaque (MT) respond to accelerations of visual stimuli wit...
Area MT in extrastriate visual cortex is widely believed to be responsible for the perception of obj...
Visual motion on the macaque retina is processed by direction- and speed-selective neurons in extras...
A car driving through the fog appears tomovemore slowly than one driving on a clear and sunny day. I...
Neurons in the mediotemporal area of the macaque (MT) respond to accelerations of visual stimuli wit...
The visual world is processed in the brain as a series of characteristics, where the information is ...
& Motion is fully described by a direction and a speed. The processing of direction information ...
AbstractDuring adaptation to a moving pattern, perceived speed decreases. Thus we know that the adap...
Visual systems adapt to the prevailing image conditions. This improves the ability to discriminate b...
noTo investigate the underlying nature of the effects of transcranial magnetic stimulation (TMS) on ...
The ability to estimate the speed of an object irrespective of size or texture is a crucial function...
Psychophysical studies have demonstrated that humans are less sensitive to image acceleration than t...
Motion at constant speed in the world maps into retinal motion very differently for lateral motion a...
AbstractMotion transparency requires that the visual system distinguish different motion vectors and...