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Edmund T. Rolls
Researcher at University of Warwick
Publications - 645
Citations - 84442
Edmund T. Rolls is an academic researcher from University of Warwick. The author has contributed to research in topics: Orbitofrontal cortex & Visual cortex. The author has an hindex of 153, co-authored 612 publications receiving 77928 citations. Previous affiliations of Edmund T. Rolls include Fudan University & Newcastle University.
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Effective connectivity in autism.
Edmund T. Rolls,Edmund T. Rolls,Yunyi Zhou,Wei Cheng,Matthieu Gilson,Gustavo Deco,Jianfeng Feng,Jianfeng Feng +7 more
TL;DR: M measuring in the first large‐scale study differences in effective, that is directed, connectivity between brain areas in autism compared to controls found that in autism, the middle temporal gyrus and other temporal areas had lower effective connectivities to the precuneus and cuneus.
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Perirhinal cortex neuronal activity is actively related to working memory in the macaque.
TL;DR: Recording the activity of single neurons in the perirhinal cortex in a rhesus monkey performing a delayed matching-to-sample task with up to four intervening stimuli provides evidence that the perirsinal cortex plays an active role in visual working memory, perhaps in association with other brain areas such as the prefrontal cortex.
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Pattern retrieval in threshold-linear associative nets.
TL;DR: Results from simulations of pattern retrieval in a large-scale, sparsely connected network of threshold-linear neurons are presented, showing the system is capable of retrieving states strongly correlated with one of the stored patterns even when the initial state is a highly degraded version of one of these patterns.
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Connections of the Human Orbitofrontal Cortex and Inferior Frontal Gyrus
Chih Chin Heather Hsu,Edmund T. Rolls,Edmund T. Rolls,Chu Chung Huang,Shin Tai Chong,Chun Yi Zac Lo,Jianfeng Feng,Jianfeng Feng,Ching Po Lin +8 more
TL;DR: A key finding is that the ventromedial prefrontal cortex shares with the medial OFC especially strong outputs to the nucleus accumbens and olfactory tubercle, which comprise the ventral striatum, whereas the other regions have more widespread Outputs to the striatum.
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Face processing in different brain areas, and critical band masking
TL;DR: Neurophysiological evidence is described showing that some neurons in the macaque inferior temporal visual cortex have responses that are invariant with respect to the position, size, view, and spatial frequency of faces and objects, and that these neurons show rapid processing and rapid learning.