Edmund T. Rolls

TL;DR: The present simulation study was performed in order to investigate the operation of a autoassociative network with values for the asymmetric diluted neuronal connectivity typical of some brain regions such as the hippocampus, and reports that the amount of information that can be retrieved is relatively independent of the resolution of the stored patterns.

TL;DR: Some evidence is conveyed by a population of IT neurons about the relative positions of several simultaneously presented objects in a scene extending well into the parafovea during a single fixation, and this is likely to be important in whole scene perception with multiple objects.

TL;DR: This work has considered how the neuronal network architecture of the hippocampus may enable it to act as an intermediate term buffer store for recent memories, and how information may be recalled from it to the cerebral cortex using modified synapses in back-projection pathways from the hippocampus toThe cerebral cortex.

TL;DR: It is suggested that the threshold for conscious visual perception may be set to be higher than the level at which small but significant information is present in neuronal firing, so that the systems in the brain that implement the type of information processing involved in conscious thoughts are not interrupted by small signals that could be noise in sensory pathways.

TL;DR: Arousal produced through the brainstem system is at least likely to affect behavior elicited from MFB self-stimulation electrodes, and activity in the arousal part of the neural system traced may partly mediate the priming effect.