It has been shown that pure Pavlovian associative reward learning can elicit value-driven attentional capture. However, in previous studies, task-irrelevant and response-independent reward-signalling stimuli hardly competed for visual selective attention. Here we put Pavlovian reward learning to the test by manipulating the extent to which bottom-up (Experiment 1) and top-down (Experiment 2) processes were involved in this type of learning. In Experiment 1, the stimulus, the colour of which signalled the magnitude of the reward given, was presented simultaneously with another randomly coloured stimulus, so that it did not capture attention in a stimulus-driven manner. In Experiment 2, observers performed an attentionally demanding RSVP-task...
<div><p>When an otherwise inconspicuous stimulus is learned to predict a reward, this stimulus will ...
Visual selective attention (VSA) is the cognitive function that regulates ongoing processing of reti...
Previous work has attempted to fit reward-driven attentional selection as being exogenous (stimulus-...
It has been shown that pure Pavlovian associative reward learning can elicit value-driven attentiona...
Recent evidence shows that distractors that signal high compared to low reward availability elicit s...
Different mechanisms of attention controlling learning have been proposed in appetitive and aversive...
Existing research indicates that learning about the Pavlovian ‘signal value’ of stimuli can induce a...
Existing research indicates that learning about the Pavlovian 'signal value' of stimuli can induce a...
Attending to visual stimuli associated with high probability of gaining rewards is highly adaptive. ...
The traditional distinction between exogenous and endogenous attentional control has recently been e...
Attending to visual stimuli associated with a high probability of procuring rewards is greatly adapt...
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...
Attention provides the gateway to cognition, by selecting certain stimuli for further analysis. Rece...
Attention provides the gateway to cognition, by selecting certain stimuli for further analysis. Rece...
<div><p>When an otherwise inconspicuous stimulus is learned to predict a reward, this stimulus will ...
Visual selective attention (VSA) is the cognitive function that regulates ongoing processing of reti...
Previous work has attempted to fit reward-driven attentional selection as being exogenous (stimulus-...
It has been shown that pure Pavlovian associative reward learning can elicit value-driven attentiona...
Recent evidence shows that distractors that signal high compared to low reward availability elicit s...
Different mechanisms of attention controlling learning have been proposed in appetitive and aversive...
Existing research indicates that learning about the Pavlovian ‘signal value’ of stimuli can induce a...
Existing research indicates that learning about the Pavlovian 'signal value' of stimuli can induce a...
Attending to visual stimuli associated with high probability of gaining rewards is highly adaptive. ...
The traditional distinction between exogenous and endogenous attentional control has recently been e...
Attending to visual stimuli associated with a high probability of procuring rewards is greatly adapt...
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...
Attention provides the gateway to cognition, by selecting certain stimuli for further analysis. Rece...
Attention provides the gateway to cognition, by selecting certain stimuli for further analysis. Rece...
<div><p>When an otherwise inconspicuous stimulus is learned to predict a reward, this stimulus will ...
Visual selective attention (VSA) is the cognitive function that regulates ongoing processing of reti...
Previous work has attempted to fit reward-driven attentional selection as being exogenous (stimulus-...