The visual world is processed in the brain as a series of characteristics, where the information is interpreted in different regions. For example, the colour and direction of an object will be processed via different neural pathways. However, there has long been ambiguity associated with how and where the speed of motion is processed. While investigating speed-tuning, I found that the stimulus used during experiments was crucial - by replacing the commonly used stimulus with one that traverses the visual field, almost 50% of neurons that were originally found to not encode for speed, became speed-tuned
Our visual system can operate at fascinating speeds. Psychophysical experiments teach us that the pr...
The human middle temporal complex (hMT+) has a crucial biological relevance for the processing and d...
We used the responses of neurons in extrastriate visual area MT to determine how well neural noise c...
The ability to estimate the speed of an object irrespective of size or texture is a crucial function...
A car driving through the fog appears tomovemore slowly than one driving on a clear and sunny day. I...
Visual motion on the macaque retina is processed by direction- and speed-selective neurons in extras...
Area MT in extrastriate visual cortex is widely believed to be responsible for the perception of obj...
Neurons in the mediotemporal area of the macaque (MT) respond to accelerations of visual stimuli wit...
& Motion is fully described by a direction and a speed. The processing of direction information ...
Interacting with the natural environment leads to complex stimulations of our senses. Here we focus ...
How does the visual system determine the direction and speed of moving objects? In the primate brain...
Local motion in a visual scene allows the detection of prey or predator and predicts their future po...
A recent study by Priebe et al., (2006) has shown that a small proportion (27%) of primate direction...
Temporal integration in the visual system causes fast-moving objects to generate static, oriented tr...
AbstractWe have shown previously that neurons in the middle temporal (MT) area of primate cortex hav...
Our visual system can operate at fascinating speeds. Psychophysical experiments teach us that the pr...
The human middle temporal complex (hMT+) has a crucial biological relevance for the processing and d...
We used the responses of neurons in extrastriate visual area MT to determine how well neural noise c...
The ability to estimate the speed of an object irrespective of size or texture is a crucial function...
A car driving through the fog appears tomovemore slowly than one driving on a clear and sunny day. I...
Visual motion on the macaque retina is processed by direction- and speed-selective neurons in extras...
Area MT in extrastriate visual cortex is widely believed to be responsible for the perception of obj...
Neurons in the mediotemporal area of the macaque (MT) respond to accelerations of visual stimuli wit...
& Motion is fully described by a direction and a speed. The processing of direction information ...
Interacting with the natural environment leads to complex stimulations of our senses. Here we focus ...
How does the visual system determine the direction and speed of moving objects? In the primate brain...
Local motion in a visual scene allows the detection of prey or predator and predicts their future po...
A recent study by Priebe et al., (2006) has shown that a small proportion (27%) of primate direction...
Temporal integration in the visual system causes fast-moving objects to generate static, oriented tr...
AbstractWe have shown previously that neurons in the middle temporal (MT) area of primate cortex hav...
Our visual system can operate at fascinating speeds. Psychophysical experiments teach us that the pr...
The human middle temporal complex (hMT+) has a crucial biological relevance for the processing and d...
We used the responses of neurons in extrastriate visual area MT to determine how well neural noise c...