AbstractThe neurophysiology of eye movements has been studied extensively, and several computational models have been proposed for decision-making processes that underlie the generation of eye movements towards a visual stimulus in a situation of uncertainty. One class of models, known as linear rise-to-threshold models, provides an economical, yet broadly applicable, explanation for the observed variability in the latency between the onset of a peripheral visual target and the saccade towards it. So far, however, these models do not account for the dynamics of learning across a sequence of stimuli, and they do not apply to situations in which subjects are exposed to events with conditional probabilities. In this methodological paper, we ex...
Inferring the environment's statistical structure and adapting behavior accordingly is a fundamental...
We present a biophysical model of saccade initiation based on competitive integration of planned an...
<p>This figure shows, on the left, several simplified saccade generation schemes, and their predicti...
The neurophysiology of eye movements has been studied extensively, and several computational models ...
AbstractThe neurophysiology of eye movements has been studied extensively, and several computational...
The early eye tracking studies of Yarbus provided descriptive evidence that an observer’s task influ...
Abstract Among the various possible criteria guiding eye movement selection, we investigate the role...
The distributed nature of information processing in the brain creates a complex variety of decision ...
Inferring the environment's statistical structure and adapting behavior accordingly is a fundamental...
Inferring the environment's statistical structure and adapting behavior accordingly is a fundamental...
Understanding the decision process underlying gaze control is an important question in cognitive neu...
AbstractPerceptual decision-making may be viewed as a process of integrating sensory evidence over t...
Various models have been proposed to explain the interplay between bottom-up and top-down mechanisms...
Inferring the environment's statistical structure and adapting behavior accordingly is a fundamental...
How does our visual system decide where to look? The Linear Approach to Threshold with Ergodic Rate ...
Inferring the environment's statistical structure and adapting behavior accordingly is a fundamental...
We present a biophysical model of saccade initiation based on competitive integration of planned an...
<p>This figure shows, on the left, several simplified saccade generation schemes, and their predicti...
The neurophysiology of eye movements has been studied extensively, and several computational models ...
AbstractThe neurophysiology of eye movements has been studied extensively, and several computational...
The early eye tracking studies of Yarbus provided descriptive evidence that an observer’s task influ...
Abstract Among the various possible criteria guiding eye movement selection, we investigate the role...
The distributed nature of information processing in the brain creates a complex variety of decision ...
Inferring the environment's statistical structure and adapting behavior accordingly is a fundamental...
Inferring the environment's statistical structure and adapting behavior accordingly is a fundamental...
Understanding the decision process underlying gaze control is an important question in cognitive neu...
AbstractPerceptual decision-making may be viewed as a process of integrating sensory evidence over t...
Various models have been proposed to explain the interplay between bottom-up and top-down mechanisms...
Inferring the environment's statistical structure and adapting behavior accordingly is a fundamental...
How does our visual system decide where to look? The Linear Approach to Threshold with Ergodic Rate ...
Inferring the environment's statistical structure and adapting behavior accordingly is a fundamental...
We present a biophysical model of saccade initiation based on competitive integration of planned an...
<p>This figure shows, on the left, several simplified saccade generation schemes, and their predicti...