AbstractAssociative learning theory assumes that prediction error is a driving force in learning. A competing view, probabilistic contrast (PC) theory, is that learning and prediction error are unrelated. We tested a learning phenomenon that has proved troublesome for associative theory —retrospective revaluation—to evaluate these two models. We previously showed that activation in right lateral prefrontal cortex (PFC) provides a reliable signature for the presence of prediction error. Thus, if the associative view is correct, retrospective revaluation should be accompanied by right lateral PFC activation. PC theory would be supported by the absence of this activation. Right PFC and ventral striatal activation occurred during retrospective ...
In this paper, we review the evidence that learning is driven by signaling of Prediction Error [PE] ...
Reinforcement learning describes motivated behavior in terms of two abstract signals. The representa...
Both perceptual inference and motor responses are shaped by learned probabilities. For example, stim...
AbstractAssociative learning theory assumes that prediction error is a driving force in learning. A ...
Confronted with a rich sensory environment, the brain must learn statistical regularities across sen...
Confronted with a rich sensory environment, the brain must learn statistical regularities across sen...
Learning depends on surprise and is not engendered by predictable occurrences. In this functional ma...
Learning depends on surprise and is not engendered by predictable occurrences. In this functional ma...
Confronted with a rich sensory environment, the brain must learn statistical regularities across sen...
Both perceptual inference and motor responses are shaped by learned probabilities. For example, stim...
Learning from errors or negative feedback is crucial for adaptive behavior. FMRI studies have demons...
Learning from errors or negative feedback is crucial for adaptive behavior. FMRI studies have demons...
Learning the structure of the world can be driven by reinforcement but also occurs incidentally thro...
Much of contemporary associative learning research is focused on understanding how and when the asso...
The retrosplenial cortex, located in the posterior midline of the brain, is a small but important re...
In this paper, we review the evidence that learning is driven by signaling of Prediction Error [PE] ...
Reinforcement learning describes motivated behavior in terms of two abstract signals. The representa...
Both perceptual inference and motor responses are shaped by learned probabilities. For example, stim...
AbstractAssociative learning theory assumes that prediction error is a driving force in learning. A ...
Confronted with a rich sensory environment, the brain must learn statistical regularities across sen...
Confronted with a rich sensory environment, the brain must learn statistical regularities across sen...
Learning depends on surprise and is not engendered by predictable occurrences. In this functional ma...
Learning depends on surprise and is not engendered by predictable occurrences. In this functional ma...
Confronted with a rich sensory environment, the brain must learn statistical regularities across sen...
Both perceptual inference and motor responses are shaped by learned probabilities. For example, stim...
Learning from errors or negative feedback is crucial for adaptive behavior. FMRI studies have demons...
Learning from errors or negative feedback is crucial for adaptive behavior. FMRI studies have demons...
Learning the structure of the world can be driven by reinforcement but also occurs incidentally thro...
Much of contemporary associative learning research is focused on understanding how and when the asso...
The retrosplenial cortex, located in the posterior midline of the brain, is a small but important re...
In this paper, we review the evidence that learning is driven by signaling of Prediction Error [PE] ...
Reinforcement learning describes motivated behavior in terms of two abstract signals. The representa...
Both perceptual inference and motor responses are shaped by learned probabilities. For example, stim...