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1

Peters, Alan, and Kathleen S. Rockland, eds. Primary Visual Cortex in Primates. Boston, MA: Springer US, 1994. http://dx.doi.org/10.1007/978-1-4757-9628-5.

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2

1929-, Peters Alan, and Rockland, Kathleen Linda Skiba, 1947-, eds. Primary visual cortex in primates. New York: Plenum Press, 1994.

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3

1929-, Peters Alan, ed. The cat primary visual cortex. San Diego: Academic Press, 2002.

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4

Suner, Ivan Jose. Influences of the lateral geniculate nucleus in the specification of primary visual cortex in macaca mulatta. [s.l: s.n.], 1992.

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5

Rubin, Daniel Brett. A Novel Circuit Model of Contextual Modulation and Normalization in Primary Visual Cortex. [New York, N.Y.?]: [publisher not identified], 2012.

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6

service), SpringerLink (Online, ed. Circuits in the Brain: A Model of Shape Processing in the Primary Visual Cortex. New York, NY: Springer-Verlag New York, 2009.

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7

Ziskind, Avi. Neurons in Cat Primary Visual Cortex cluster by degree of tuning but not by absolute spatial phase or temporal response phase. [New York, N.Y.?]: [publisher not identified], 2013.

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8

Peters, Alan, and Bertram Payne. Cat Primary Visual Cortex. Elsevier Science & Technology Books, 2001.

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9

The Cat Primary Visual Cortex. Elsevier, 2002. http://dx.doi.org/10.1016/b978-0-12-552104-8.x5000-7.

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10

(Editor), Bertram Payne, and Alan Peters (Editor), eds. The Cat Primary Visual Cortex. Academic Press, 2001.

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11

Peters, Alan. Cerebral Cortex: Volume 10 Primary Visual Cortex In Primates. Springer, 2013.

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12

(Editor), Alan Peters, and Kathleen S. Rockland (Editor), eds. Primary Visual Cortex in Primates (Cerebral Cortex) VOL. 10. Springer, 1994.

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13

Peters, Alan, and Kathleen S. Rockland. Cerebral Cortex: Volume 10 Primary Visual Cortex in Primates. Springer London, Limited, 2013.

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14

Inhibition stabilized network model in the primary visual cortex. [New York, N.Y.?]: [publisher not identified], 2012.

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15

Schmid, Anita Milana. Processing of feature discontinuities in cat and monkey primary visual cortex. 2004.

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16

Legéndy, Charles. Circuits in the Brain: A Model of Shape Processing in the Primary Visual Cortex. Springer New York, 2010.

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17

Chalupa, Leo M., and John S. Werner, eds. The Visual Neurosciences, 2-vol. set. The MIT Press, 2003. http://dx.doi.org/10.7551/mitpress/7131.001.0001.

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An essential reference book for visual science. Visual science is the model system for neuroscience, its findings relevant to all other areas. This massive collection of papers by leading researchers in the field will become an essential reference for researchers and students in visual neuroscience, and will be of importance to researchers and professionals in other disciplines, including molecular and cellular biology, cognitive science, ophthalmology, psychology, computer science, optometry, and education. Over 100 chapters cover the entire field of visual neuroscience, from its historical foundations to the latest research and findings in molecular mechanisms and network modeling. The book is organized by topic—different sections cover such subjects as the history of vision science; developmental processes; retinal mechanisms and processes; organization of visual pathways; subcortical processing; processing in the primary visual cortex; detection and sampling; brightness and color; form, shape, and object recognition; motion, depth, and spatial relationships; eye movements; attention and cognition; and theoretical and computational perspectives. The list of contributors includes leading international researchers in visual science. Bradford Books imprint
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18

Beck, Diane M., and Sabine Kastner. Neural Systems for Spatial Attention in the Human Brain. Edited by Anna C. (Kia) Nobre and Sabine Kastner. Oxford University Press, 2014. http://dx.doi.org/10.1093/oxfordhb/9780199675111.013.011.

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Spatial attention has been studied for over a half a century. Early behavioural work showed that attending to a location improves performance on a variety of tasks. Since then substantial progress has been made on understanding the neural mechanisms underlying these effects. This chapter reviews the neuroimaging literature, as well as related behavioural and single-cell physiology studies, on visual spatial attention. In particular, the chapter frames much of the work in the context of the biased competition theory of attention, which argues that a primary mechanism of attention is to bias competition among stimuli in the visual cortex in favour of an attended stimulus that, as a result, receives enhanced processing to guide behaviour. Accordingly, the authors have organized this chapter into two related sections. The first summarizes the effects of attention in the visual cortex and thalamus, the so-called ‘site’ of attention. The second explores the relationship between attention and fronto-parietal mechanisms which are thought to be the ‘source’ of the biasing signals exerted on the visual cortex.
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19

Chirimuuta, Mazviita, and Ian Gold. The Embedded Neuron, the Enactive Field? Edited by John Bickle. Oxford University Press, 2009. http://dx.doi.org/10.1093/oxfordhb/9780195304787.003.0010.

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This article examines the concept of the receptive field (RF) of visual neurons. It introduces the concept of visual RFs by discussing the classical picture of primary visual cortex (V1) physiology and discusses the psychophysics and computational vision of contrast discrimination to place the visual neurophysiology in context. It evaluates some recent data which questioned the classical conception of the RF and considers some options available for absorbing these data into visual theory.
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20

Rajan, Shobana, and Vibha Mahendra. Awake Craniotomy. Edited by David E. Traul and Irene P. Osborn. Oxford University Press, 2018. http://dx.doi.org/10.1093/med/9780190850036.003.0003.

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Awake craniotomies are performed when the site of surgical instrumentation or resection directly involves or abuts eloquent areas of the brain and require a cooperative patient, a tailored neuroanesthetic technique, and good teamwork. Eloquent cortex refers to any cortical region in which injury produces a symptomatic cognitive or motor deficit and includes the primary sensorimotor cortex, essential speech areas, occipital visual areas, and mesial temporal regions crucial for episodic memory. An awake patient allows for intraoperative testing of motor, speech, or sensation function while removing or manipulating brain tissue. The two principal aims of resection of a brain tumor or an epileptic focus are to maximize excision of the offending lesion for better prognosis while minimizing or avoiding damage to surrounding brain tissue. Damage to adjacent brain tissue can be catastrophic, especially if the tumor or epileptogenic areas are located close to the eloquent regions of the brain.
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21

Gori, Simone. The Rotating Tilted Lines Illusion. Oxford University Press, 2017. http://dx.doi.org/10.1093/acprof:oso/9780199794607.003.0066.

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This chapter describes the Rotating-Tilted-Lines illusion , which is a new motion illusion that arises in a circular pattern composed by black, radial lines tilted to the right and presented on a white background. When one approaches the stimulus pattern, the radial lines appear to rotate in the counterclockwise direction, whereas when one recedes from it, they appear to rotate clockwise. It is the simplest pattern able to elicit illusory rotatory motion in presence of physical radial expansion. This surprising misperception of motion seems to be a result of the competition between two motion processing units in the primary visual cortex (V1, V5)
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