| scholarly article | Q13442814 |
| review article | Q7318358 |
| P2093 | author name string | Markus Lappe | |
| Fred H Hamker | |||
| Marc Zirnsak | |||
| Arnold Ziesche | |||
| P2860 | cites work | Effect of saccadic adaptation on localization of visual targets | Q95787690 |
| Covert shifts of attention precede involuntary eye movements | Q28274774 | ||
| Neuronal mechanisms of visual stability | Q28282153 | ||
| The role of visual attention in saccadic eye movements | Q28296056 | ||
| The role of attention in the programming of saccades | Q28296532 | ||
| The representation of the visual field on the cerebral cortex in monkeys | Q29304722 | ||
| Perceptual decision making in less than 30 milliseconds | Q30493528 | ||
| Remapping in human visual cortex. | Q30496303 | ||
| The peri-saccadic perception of objects and space | Q33320179 | ||
| Brain circuits for the internal monitoring of movements. | Q33619869 | ||
| Failure to detect displacement of the visual world during saccadic eye movements | Q33949122 | ||
| Neural basis of the spontaneous optokinetic response produced by visual inversion | Q33975648 | ||
| Updating of the visual representation in monkey striate and extrastriate cortex during saccades | Q34021579 | ||
| Changes in visual perception at the time of saccades | Q34133672 | ||
| A computational perspective on the neural basis of multisensory spatial representations | Q34147442 | ||
| The time course of perisaccadic receptive field shifts in the lateral intraparietal area of the monkey | Q34180492 | ||
| Space coding by premotor cortex | Q34488834 | ||
| Through the eye, slowly: delays and localization errors in the visual system | Q34627255 | ||
| Transsaccadic memory of position and form | Q35037115 | ||
| Seeing properties of an invisible object: feature inheritance and shine-through | Q35063423 | ||
| The maintenance of spatial accuracy by the perisaccadic remapping of visual receptive fields | Q35093838 | ||
| Psychology and neurobiology of simple decisions | Q35704605 | ||
| Visual representations during saccadic eye movements | Q36229910 | ||
| Spatial remapping of the visual world across saccades. | Q36882334 | ||
| The spatial distribution of receptive field changes in a model of peri-saccadic perception: predictive remapping and shifts towards the saccade target | Q39901012 | ||
| Electrophysiological correlates of presaccadic remapping in humans. | Q40086016 | ||
| Fusion of visual and auditory stimuli during saccades: a Bayesian explanation for perisaccadic distortions. | Q40185323 | ||
| Predictive remapping of visual features precedes saccadic eye movements | Q40200980 | ||
| The mechanisms of feature inheritance as predicted by a systems-level model of visual attention and decision making | Q40379638 | ||
| Spatial processing in the monkey frontal eye field. I. Predictive visual responses | Q40881710 | ||
| Oculocentric spatial representation in parietal cortex. | Q40938750 | ||
| Oculomotor localization relies on a damped representation of saccadic eye displacement in human and nonhuman primates | Q41095241 | ||
| Models of the posterior parietal cortex which perform multimodal integration and represent space in several coordinate frames | Q41754260 | ||
| Memory activity of LIP neurons for sequential eye movements simulated with neural networks | Q41754621 | ||
| Visual and motor connectivity and the distribution of calcium-binding proteins in macaque frontal eye field: implications for saccade target selection | Q41901036 | ||
| Backward masking and unmasking across saccadic eye movements | Q43117029 | ||
| The geometry of perisaccadic visual perception. | Q43292832 | ||
| Eye position effects on visual, memory, and saccade-related activity in areas LIP and 7a of macaque. | Q43445242 | ||
| The reentry hypothesis: linking eye movements to visual perception. | Q52003702 | ||
| Visual stability across saccades while viewing complex pictures. | Q52047945 | ||
| Apparent position of visual targets during real and simulated saccadic eye movements. | Q52192594 | ||
| Immediate post-saccadic information mediates space constancy. | Q52907893 | ||
| Landmarks facilitate visual space constancy across saccades and during fixation. | Q53061234 | ||
| The influence of the angle of gaze upon the excitability of the light-sensitive neurons of the posterior parietal cortex. | Q53840865 | ||
| Perisaccadic Compression Correlates with Saccadic Peak Velocity: Differential Association of Eye Movement Dynamics with Perceptual Mislocalization Patterns | Q56971631 | ||
| Postsaccadic visual references generate presaccadic compression of space | Q59082038 | ||
| Compression of visual space before saccades | Q59096051 | ||
| The time course of perceptual choice: The leaky, competing accumulator model | Q59410689 | ||
| Selective depression of motion sensitivity during saccades | Q60213919 | ||
| Seeing and ballistic pointing at perisaccadic targets | Q60280658 | ||
| The role of the saccade target object in the perception of a visually stable world | Q63253014 | ||
| Eye Position Influence on the Parieto-occipital Area PO (V6) of the Macaque Monkey | Q63484842 | ||
| Saccadic omission: why we do not see a grey-out during a saccadic eye movement | Q67425251 | ||
| The time courses of visual mislocalization and of extraretinal eye position signals at the time of vertical saccades | Q67824581 | ||
| Gaze-dependent visual neurons in area V3A of monkey prestriate cortex | Q69581469 | ||
| The relationship between eye movements and spatial attention | Q69628162 | ||
| Saccadic eye movements and the perception of visual direction | Q69763270 | ||
| Perceptual localization of visual stimuli flashed during saccades | Q69970020 | ||
| Postsaccadic target blanking prevents saccadic suppression of image displacement | Q71336716 | ||
| The visual field representation in striate cortex of the macaque monkey: asymmetries, anisotropies, and individual variability | Q71410917 | ||
| Neurons in the monkey superior colliculus predict the visual result of impending saccadic eye movements | Q71923794 | ||
| Timing the shift in retinal local signs that accompanies a saccadic eye movement | Q72124807 | ||
| Investigations and considerations of directional perception during voluntary saccadic eye movements | Q72202908 | ||
| Saccade-contingent displacement of the apparent position of visual stimuli flashed on a dimly illuminated structured background | Q72880469 | ||
| Eye position effects in monkey cortex. II. Pursuit- and fixation-related activity in posterior parietal areas LIP and 7A | Q73145411 | ||
| Endogenous saccades are preceded by shifts of visual attention: evidence from cross-saccadic priming effects | Q74071322 | ||
| Visualizing the perisaccadic shift of spatiotopic coordinates | Q74317331 | ||
| Perception of visual space at the time of pro- and anti-saccades | Q76371616 | ||
| Contrast dependency of sacadic compression and suppression | Q80469207 | ||
| Influence of adaptation state and stimulus luminance on peri-saccadic localization | Q80816434 | ||
| A model of the mechanism for the perceived location of a single flash and two successive flashes presented around the time of a saccade | Q80984031 | ||
| Mislocalization of perceived saccade target position induced by perisaccadic visual stimulation | Q82205414 | ||
| Experimental test of visuomotor updating models that explain perisaccadic mislocalization | Q83191935 | ||
| Contrast sensitivity during saccadic eye movements | Q43733399 | ||
| A back-propagation programmed network that simulates response properties of a subset of posterior parietal neurons | Q44145641 | ||
| Optimal transsaccadic integration explains distorted spatial perception | Q44351223 | ||
| The representation of retinal blood vessels in primate striate cortex. | Q44508424 | ||
| Perisaccadic mislocalization orthogonal to saccade direction. | Q44740487 | ||
| Supplementary eye field: influence of eye position on neural signals of fixation | Q44846185 | ||
| Models of the mechanism underlying perceived location of a perisaccadic flash | Q45040655 | ||
| A simple translation in cortical log-coordinates may account for the pattern of saccadic localization errors | Q45062331 | ||
| Illusory localization of stimuli flashed in the dark before saccades | Q46073607 | ||
| The use of egocentric and exocentric location cues in saccadic programming | Q46127135 | ||
| A dynamic model of how feature cues guide spatial attention | Q46166469 | ||
| Monkey primary somatosensory cortex has a proprioceptive representation of eye position | Q46418194 | ||
| Efference copy and its limitations | Q46579806 | ||
| Selective attention and the active remapping of object features in trans-saccadic perception | Q46611134 | ||
| Attentional selection of noncontiguous locations: the spotlight is only transiently "split". | Q47268992 | ||
| A neural network model of flexible spatial updating | Q48119783 | ||
| Optimal sensorimotor integration in recurrent cortical networks: a neural implementation of Kalman filters | Q48158015 | ||
| A role for neural integrators in perceptual decision making | Q48163331 | ||
| What the brain stem tells the frontal cortex. I. Oculomotor signals sent from superior colliculus to frontal eye field via mediodorsal thalamus. | Q48164831 | ||
| The proprioceptive representation of eye position in monkey primary somatosensory cortex | Q48223501 | ||
| Two-dimensional mapping of the central and parafoveal visual field to human visual cortex | Q48242069 | ||
| Spatial updating in human parietal cortex | Q48249103 | ||
| Effects of stimulus-response compatibility on neural selection in frontal eye field | Q48300486 | ||
| Effects of gaze on apparent visual responses of frontal cortex neurons | Q48349093 | ||
| Optimal inference explains dimension-specific contractions of spatial perception. | Q48355995 | ||
| Influence of the thalamus on spatial visual processing in frontal cortex. | Q48375321 | ||
| Parietal neurons encoding spatial locations in craniotopic coordinates | Q48378923 | ||
| Eye position effects on the neuronal activity of dorsal premotor cortex in the macaque monkey | Q48392028 | ||
| Selective gating of visual signals by microstimulation of frontal cortex | Q48403964 | ||
| V4 receptive field dynamics as predicted by a systems-level model of visual attention using feedback from the frontal eye field | Q48407177 | ||
| Spatiotemporal distortions of visual perception at the time of saccades. | Q48428094 | ||
| Influence of saccade efference copy on the spatiotemporal properties of remapping: a neural network study. | Q48428163 | ||
| Effects of spatial attention on contrast response functions in macaque area V4. | Q48497860 | ||
| Attentional modulation strength in cortical area MT depends on stimulus contrast | Q48522847 | ||
| The representation of visual salience in monkey parietal cortex | Q48536671 | ||
| Spatial invariance of visual receptive fields in parietal cortex neurons | Q48539975 | ||
| The updating of the representation of visual space in parietal cortex by intended eye movements | Q48550550 | ||
| A more biologically plausible learning rule than backpropagation applied to a network model of cortical area 7a. | Q48699411 | ||
| Trans-saccadic perception | Q48865055 | ||
| Visual, presaccadic, and cognitive activation of single neurons in monkey lateral intraparietal area | Q48876880 | ||
| Eye movements modulate visual receptive fields of V4 neurons | Q48920087 | ||
| Effects of saccadic adaptation on visual localization before and during saccades | Q48958942 | ||
| Eye position effects in monkey cortex. I. Visual and pursuit-related activity in extrastriate areas MT and MST. | Q49114477 | ||
| Influence of eye position on activity in monkey superior colliculus | Q50110400 | ||
| The extraretinal signal from the pursuit-eye-movement system: its role in the perceptual and the egocentric localization systems. | Q50797731 | ||
| Computing vector differences using a gain field-like mechanism in monkey frontal eye field. | Q51626570 | ||
| Efficient computation and cue integration with noisy population codes. | Q51642792 | ||
| About the influence of post-saccadic mechanisms for visual stability on peri-saccadic compression of object location. | Q51942446 | ||
| Attention increases sensitivity of V4 neurons. | Q51975785 | ||
| The reentry hypothesis: the putative interaction of the frontal eye field, ventrolateral prefrontal cortex, and areas V4, IT for attention and eye movement. | Q51993773 | ||
| P433 | issue | 1564 | |
| P407 | language of work or name | English | Q1860 |
| P1104 | number of pages | 18 | |
| P304 | page(s) | 554-571 | |
| P577 | publication date | 2011-02-01 | |
| P1433 | published in | Philosophical Transactions of the Royal Society B | Q2153239 |
| P1476 | title | Computational models of spatial updating in peri-saccadic perception | |
| P478 | volume | 366 |
| Q41881258 | A State Space Model for Spatial Updating of Remembered Visual Targets during Eye Movements. |
| Q82753632 | A computational model for the influence of corollary discharge and proprioception on the perisaccadic mislocalization of briefly presented stimuli in complete darkness |
| Q36785591 | A role of the human thalamus in predicting the perceptual consequences of eye movements. |
| Q36430207 | Anticipatory remapping of attentional priority across the entire visual field |
| Q39676822 | Anticipatory saccade target processing and the presaccadic transfer of visual features |
| Q41918061 | Brain circuits underlying visual stability across eye movements-converging evidence for a neuro-computational model of area LIP. |
| Q34575558 | Brain processing of visual information during fast eye movements maintains motor performance |
| Q48251668 | Disrupting saccadic updating: visual interference prior to the first saccade elicits spatial errors in the secondary saccade in a double-step task. |
| Q37615240 | Dynamic illusory size contrast: a relative-size illusion modulated by stimulus motion and eye movements |
| Q34464543 | Experimental test of spatial updating models for monkey eye-head gaze shifts |
| Q34989548 | Integration of retinal and extraretinal information across eye movements |
| Q34726950 | Masking produces compression of space and time in the absence of eye movements. |
| Q36957971 | Neural Network Evidence for the Coupling of Presaccadic Visual Remapping to Predictive Eye Position Updating. |
| Q50669809 | No perisaccadic mislocalization with abruptly cancelled saccades. |
| Q37130967 | Optimal multimodal integration in spatial localization |
| Q30381129 | Perception as a closed-loop convergence process. |
| Q36123461 | Peri-saccadic compression to two locations in a two-target choice saccade task |
| Q38609895 | Perisaccadic visual perception |
| Q38657373 | Pre- and post-saccadic stimulus timing in saccadic suppression of displacement - A computational model |
| Q36432016 | Saccadic Corollary Discharge Underlies Stable Visual Perception |
| Q41358521 | Seeing via Miniature Eye Movements: A Dynamic Hypothesis for Vision |
| Q27323985 | Single-neuron activity and eye movements during human REM sleep and awake vision. |
| Q33795528 | Spatiotopic coding and remapping in humans |
| Q49047558 | Suppression of displacement detection in the presence and absence of eye movements: a neuro-computational perspective |
| Q49125207 | Theta-burst stimulation over human frontal cortex distorts perceptual stability across eye movements |
| Q38266189 | Transsaccadic processing: stability, integration, and the potential role of remapping |
| Q42585588 | Visual stability |
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