| scholarly article | Q13442814 |
| P356 | DOI | 10.1007/BF02324766 |
| P8608 | Fatcat ID | release_nb3vvbcpubc73bqzzac6tl3sbm |
| P953 | full work available at URL | http://link.springer.com/article/10.1007/BF02324766/fulltext.html |
| http://link.springer.com/content/pdf/10.1007/BF02324766 | ||
| http://link.springer.com/content/pdf/10.1007/BF02324766.pdf | ||
| P698 | PubMed publication ID | 5422473 |
| P2093 | author name string | P. O. Bishop | |
| D. E. Joshua | |||
| P2860 | cites work | On some remarkable and hitherto unobserved phenomena of binocular vision | Q76403899 |
| On the structure and segmentation of the cortical center of vision in the cat | Q79042541 | ||
| Some quantitative aspects of the cat's eye: axis and plane of reference, visual field co-ordinates and optics | Q79594030 | ||
| The neural mechanism of binocular depth discrimination | Q24538672 | ||
| Receptive fields, binocular interaction and functional architecture in the cat's visual cortex | Q24540473 | ||
| RECEPTIVE FIELDS AND FUNCTIONAL ARCHITECTURE IN TWO NONSTRIATE VISUAL AREAS (18 AND 19) OF THE CAT | Q28201959 | ||
| Sensorial Retinal Relationship in Concomitant Strabismus | Q40641843 | ||
| Inhibitory and sub-liminal excitatory receptive fields of simple units in cat striate cortex | Q48974102 | ||
| Multiple projection of the visual field to the medical portion of the dorsal lateral geniculate nucleus and the adjacent nuclei of the thalamus of the cat. | Q49012801 | ||
| Projection of the visual vertical meridian to cerebral cortex of the cat | Q51185902 | ||
| Binocular interaction on single units in cat striate cortex: Simultaneous stimulation by single moving slit with receptive fields in correspondence | Q51193239 | ||
| Responses to moving slits by single units in cat striate cortex | Q51193243 | ||
| Analysis of retinal correspondence by studying receptive fields of rinocular single units in cat striate cortex | Q51193247 | ||
| RESPONSES OF SINGLE UNITS IN LATERAL GENICULATE NUCLEUS OF CAT TO MOVING VISUAL PATTERNS | Q51260879 | ||
| The determination of the projection of the visual field on to the lateral geniculate nucleus in the cat. | Q51292695 | ||
| Residual eye movements in receptive-field studies of paralyzed cats. | Q53795919 | ||
| Contributions to the Physiology of Vision. Part the First. On Some Remarkable, and Hitherto Unobserved, Phenomena of Binocular Vision | Q54259082 | ||
| Retinal disparity and diplopia | Q72162508 | ||
| Change in retinal correspondence with viewing distance | Q72176355 | ||
| P433 | issue | 4 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | ocular vision | Q69942028 |
| P304 | page(s) | 389-416 | |
| P577 | publication date | 1970-01-01 | |
| P1433 | published in | Experimental Brain Research | Q13358841 |
| P1476 | title | Binocular single vision and depth discrimination. Receptive field disparities for central and peripheral vision and binocular interaction on peripheral single units in cat striate cortex | |
| P478 | volume | 10 |
| Q47283619 | 2015 Charles F. Prentice Medal Award Lecture: Neural Organization of Binocular Vision |
| Q70879199 | A comparison of binocular depth mechanisms in areas 17 and 18 of the cat visual cortex |
| Q40309495 | A neurophysiological model for anomalous correspondence based on mechanisms of sensory fusion |
| Q34055492 | A reaction-diffusion model to capture disparity selectivity in primary visual cortex |
| Q48718327 | A second neural mechanism of binocular depth discrimination |
| Q43771705 | Absence of binocular coding in striate cortex units of Siamese cats |
| Q37153368 | Absolute Depth Sensitivity in Cat Primary Visual Cortex under Natural Viewing Conditions |
| Q48603407 | An intracellular analysis of visual cortical neurones to moving stimuli: response in a co-operative neuronal network. |
| Q48517975 | An unexpected specialization for horizontal disparity in primate primary visual cortex |
| Q49056150 | Auditory cortex projections target the peripheral field representation of primary visual cortex |
| Q38430829 | Binocular Disparity Selectivity Weakened after Monocular Deprivation in Mouse V1. |
| Q48687108 | Binocular Neurones which signal Change of Disparity in Area 18 of Cat Visual Cortex |
| Q48668413 | Binocular combination of contrast signals by striate cortical neurons in the monkey |
| Q34334319 | Binocular integration and disparity selectivity in mouse primary visual cortex |
| Q48573089 | Binocular interaction and disparity coding at the 17-18 border: contribution of the corpus callosum |
| Q48372688 | Binocular interaction and disparity coding in area 19 of visual cortex in normal and split-chiasm cats |
| Q48812307 | Binocular interaction fields of single units in the cat striate cortex |
| Q30666912 | Binocular interaction in the cat's superior colliculus |
| Q49080410 | Binocular interactions and disparity coding in area 21a of cat extrastriate visual cortex |
| Q48181070 | Binocular neurons in V1 of awake monkeys are selective for absolute, not relative, disparity |
| Q33753875 | Binocular neurons in parastriate cortex: interocular 'matching' of receptive field properties, eye dominance and strength of silent suppression |
| Q35006032 | Binocular vision: an orientation to disparity coding |
| Q48393650 | Binocular visual mechanisms in cortical areas I and II of the sheep |
| Q51120918 | Conduction velocity of afferents to cat visual cortex: a correlation with cortical receptive field properties |
| Q52211835 | Cortical representation of visual three-dimensional space. |
| Q67446871 | Crossed and uncrossed representation of the visual field by brisk-sustained and brisk-transient cat retinal ganglion cells |
| Q46208384 | Depth is encoded in the visual cortex by a specialized receptive field structure |
| Q43428930 | Depth perception and cortical physiology in normal and innate microstrabismic cats |
| Q39341876 | Depth perception and location of brain lesions |
| Q52869146 | Development of Specificity in the Cat Visual Cortex. |
| Q48793847 | Development of interocular alignment in cats |
| Q48351242 | Disparity coding in the cat: a comparison between areas 17-18 and area 19. |
| Q48196444 | Disparity sensitivity and receptive field incongruity of units in the cat striate cortex |
| Q52734457 | Does rolling of the eye occur in the anaesthetized paralysed cat? |
| Q35911887 | Early computational processing in binocular vision and depth perception. |
| Q52200954 | Effect of binocular cortical misalignment on ocular dominance and orientation selectivity. |
| Q48350107 | Effects of visual deprivation and alterations in binocular competition on responses of striate cortex neurons in the cat |
| Q48728599 | Evidence for disparity detecting neurones in the human visual system |
| Q39685246 | Field processes in stereovision. A description of stereopsis appropriate to ophthalmology and visual perception |
| Q40684438 | Globality and stereoscopic fusion in binocular vision |
| Q35203623 | Human Stereopsis |
| Q48452359 | Innate and environmental factors in the development of the kitten's visual cortex |
| Q51115792 | Interaction effects of visual contours on the discharge frequency of simple striate neurones |
| Q43921726 | Limit of single vision in stereopsis depends on contour sharpness |
| Q27305307 | Local Integration Accounts for Weak Selectivity of Mouse Neocortical Parvalbumin Interneurons. |
| Q48556129 | Loss of stereopsis following lesions of cortical areas 17-18 in the cat. |
| Q43704037 | Mechanism of anomalous retinal correspondence: Maintenance of binocularity with alteration of receptive-field position in the lateral suprasylvian (LS) visual area of strabismic cats |
| Q71008866 | Mechanisms of static and dynamic stereopsis in foveal cortex of the rhesus monkey |
| Q48447492 | Neural bases of stereopsis across visual field of the alert macaque monkey |
| Q36773403 | Neural mechanisms underlying binocular fusion and stereopsis: position vs. phase |
| Q74715200 | Neural mechanisms underlying stereoscopic vision |
| Q44503382 | Neuronal mechanisms underlying stereopsis: how do simple cells in the visual cortex encode binocular disparity? |
| Q44211182 | Neurons in parafoveal areas V1 and V2 encode vertical and horizontal disparities |
| Q48393603 | Ocular dominance and disparity-sensitivity: why there are cells in the visual cortex driven unequally by the two eyes |
| Q44648275 | Path dissociation of visual signals entering the cortex: disparity, contour orientation and position |
| Q48667813 | Phase- and position-disparity coding in the posteromedial lateral suprasylvian area of the cat. |
| Q48707341 | Plasticity in the binocular correspondence of striate cortical receptive fields in kittens. |
| Q44519092 | Predominance of monocularly driven cells in the projection area of the central visual field in cat's striate cortex |
| Q44963242 | Proceedings: Improved methods for measuring mammary metabolism in conscious farm animals |
| Q70540476 | Processing of form and motion in area 21a of cat visual cortex |
| Q44049827 | Receptive field analysis: responses to moving visual contours by single lateral geniculate neurones in the cat. |
| Q48155853 | Receptive field organization of complex cells in the cat's striate cortex |
| Q48127044 | Receptive fields of disparity-selective neurons in macaque striate cortex |
| Q48660122 | Receptive fields of simple cells in the cat striate cortex |
| Q35304130 | Recovery in microtropia: implications for aetiology and neurophysiology |
| Q68649003 | Representation of the ipsilateral visual field in the transition zone between areas 17 and 18 of the cat's cerebral cortex |
| Q48651426 | Responses to moving stimuli of single cells in the cat visual areas 17 and 18 |
| Q51115796 | Responses to visual contours: spatio‐temporal aspects of excitation in the receptive fields of simple striate neurones |
| Q33846506 | Seeing in three dimensions: the neurophysiology of stereopsis. |
| Q48610867 | Self-organization of orientation sensitive cells in the striate cortex |
| Q59065445 | Sensitivity for vertical retinal image differences |
| Q33940231 | Separating fusion from rivalry |
| Q51122990 | Shift in Binocular Disparity Causes Compensatory Change in the Cortical Structure of Kittens |
| Q51849471 | Shortage of binocular cells in area 17 of visual cortex in cats with congenital strabismus. |
| Q42441824 | Simple Cells of the Striate Cortex |
| Q49050438 | Single unit receptive fields in rabbit primary binocular cortex |
| Q48396464 | Space and spatial frequency: analysis and representation in the macaque striate cortex |
| Q46578324 | Spatial interactions modulate stereoscopic processing of horizontal and vertical disparities |
| Q41635602 | Stereoacuity in the periphery is limited by internal noise |
| Q48389899 | Stereoperception in cats following section of the corpus callosum and/or the optic chiasma |
| Q39710199 | Stereopsis in monkeys using random dot stereograms: The effect of viewing duration |
| Q46243005 | Stereopsis with large disparities: Discrimination and depth magnitude |
| Q69641895 | Stereoscopic aftereffects: Evidence for disparity-specific neurones in the human visual system |
| Q51121396 | Stereoscopic vision in the cat. |
| Q52303029 | Surfaces with Steep Variations in Depth Pose Difficulties for Orientationally Tuned Disparity Filters |
| Q48395827 | The cortical visual areas of the sheep |
| Q46914454 | The crossed or uncrossed destination of axons of sluggish-concentric and non-concentric cat retinal ganglion cells, with an overall synthesis of the visual field representation |
| Q66943525 | The decussation of the retinothalamic pathway in the cat, with a note on the major meridians of the cat's eye |
| Q48912561 | The effect of horizontal-plane environment on the development of binocular receptive fields of cells in cat visual cortex. |
| Q48263209 | The effect of image position on the Independent Components of natural binocular images. |
| Q41514717 | The effect of visual experience on the development of stimulus specificity by kitten cortical neurones |
| Q48145380 | The ipsilateral field representation in the striate cortex of the opossum |
| Q39177014 | The nature of the boundary between cortical visual areas II and III in the cat |
| Q49018895 | The organization of binocular cortex in the primary visual area of the rabbit |
| Q51122074 | The projection of the visual field to the lateral geniculate and medial interlaminar nuclei in the cat |
| Q48871291 | The properties of the binocular receptive fields of lateral geniculate neurons |
| Q41744334 | The response characteristics of an inhibitory binocular interaction in human vision |
| Q41683724 | The subregion correspondence model of binocular simple cells |
| Q31065790 | Topographic reorganization in area 18 of adult cats following circumscribed monocular retinal lesions in adolescence |
| Q40015400 | Topographical relationships between the anatomy and physiology of the rabbit visual system |
| Q34406794 | Understanding the cortical specialization for horizontal disparity. |
| Q48854215 | Visual field projection columns and magnification factors in the lateral geniculate nucleus of the cat |
| Q73119755 | Visual responses in monkey areas V1 and V2 to three-dimensional surface configurations |
| Q71898124 | [Decreasing local stereopsis with increasing horizontal disparity, indicating decreasing density of binocular cortical projection towards the limits of Panum's area (author's transl)] |
Search more.