It has long been known that rewarding improves performance. However it is unclear whether this is due to high level modulations in the output modules of associated neural systems or due to low level mechanisms favoring more 'generous' inputs? Some recent studies suggest that primary sensory areas, including V1 and A1, may form part of the circuitry of reward-based modulations, but there is no data indicating whether reward can be dissociated from attention or cross-trial forms of perceptual learning. Here we address this issue with a psychophysical dual task, to control attention, while perceptual performance on oriented targets associated with different levels of reward is assessed by measuring both orientation discrimination thresholds a...
Shifting attention is an effortful control process and incurs a cost on the cognitive system. Previo...
Reward-related mesolimbic dopamine steers animal behavior, creating automatic approach toward reward...
Previous work has attempted to fit reward-driven attentional selection as being exogenous (stimulus-...
Rewarding improves performance. Is it due to modulations of the output modules of the neural systems...
Visual selective attention is the brain function that modulates ongoing processing of retinal input ...
AbstractVisual selective attention is the brain function that modulates ongoing processing of retina...
Visual attentional selection is influenced by the value of objects. Previous studies have demonstrat...
It is thought that reward-induced motivation influences perceptual, attentional, and cognitive contr...
In this review, we explore how reward signals shape perceptual learning in animals and humans. Perce...
Our attention is constantly captured and guided by visual and/or auditory inputs. One key contributo...
Visual selective attention (VSA) is the cognitive function that regulates ongoing processing of reti...
Attention to task-relevant features leads to a biasing of sensory selection in extrastriate cortex. ...
Visual attention has long been known to be drawn to stimuli that are physically salient or congruent...
Attending to visual stimuli associated with a high probability of procuring rewards is greatly adapt...
Reward expectation and spatial attention both exert powerful control over behaviour and modulate neu...
Shifting attention is an effortful control process and incurs a cost on the cognitive system. Previo...
Reward-related mesolimbic dopamine steers animal behavior, creating automatic approach toward reward...
Previous work has attempted to fit reward-driven attentional selection as being exogenous (stimulus-...
Rewarding improves performance. Is it due to modulations of the output modules of the neural systems...
Visual selective attention is the brain function that modulates ongoing processing of retinal input ...
AbstractVisual selective attention is the brain function that modulates ongoing processing of retina...
Visual attentional selection is influenced by the value of objects. Previous studies have demonstrat...
It is thought that reward-induced motivation influences perceptual, attentional, and cognitive contr...
In this review, we explore how reward signals shape perceptual learning in animals and humans. Perce...
Our attention is constantly captured and guided by visual and/or auditory inputs. One key contributo...
Visual selective attention (VSA) is the cognitive function that regulates ongoing processing of reti...
Attention to task-relevant features leads to a biasing of sensory selection in extrastriate cortex. ...
Visual attention has long been known to be drawn to stimuli that are physically salient or congruent...
Attending to visual stimuli associated with a high probability of procuring rewards is greatly adapt...
Reward expectation and spatial attention both exert powerful control over behaviour and modulate neu...
Shifting attention is an effortful control process and incurs a cost on the cognitive system. Previo...
Reward-related mesolimbic dopamine steers animal behavior, creating automatic approach toward reward...
Previous work has attempted to fit reward-driven attentional selection as being exogenous (stimulus-...