scholarly article | Q13442814 |
P2093 | author name string | P A Calabresi | |
R D Rafal | |||
Peter A. Calabresi | |||
Cameron W. Brennan | |||
C W Brennan | |||
Robert D. Rafal | |||
T K Sciolto | |||
Toni K. Sciolto | |||
P433 | issue | 4 | |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 673-85 | |
673-685 | |||
P577 | publication date | 1989-01-01 | |
1989-11-01 | |||
P1433 | published in | Journal of Experimental Psychology: Human Perception and Performance | Q6295188 |
P1476 | title | Saccade preparation inhibits reorienting to recently attended locations | |
P478 | volume | 15 |
Q27308654 | A Microsaccadic Account of Attentional Capture and Inhibition of Return in Posner Cueing |
Q48577468 | A perceptual level mechanism of the inhibition of return in oculomotor planning |
Q34134372 | A review of the evidence for a disengage deficit following parietal lobe damage |
Q52110837 | Abrupt onsets and gaze direction cues trigger independent reflexive attentional effects. |
Q49093416 | Action or attention in social inhibition of return? |
Q48177588 | An anti-Hick's effect for exogenous, but not endogenous, saccadic eye movements |
Q48288566 | Analog VLSI-based modeling of the primate oculomotor system |
Q52208039 | Asymmetrical visual-spatial attentional performance in ADHD: Evidence for a right hemispheric deficit |
Q52164757 | Attending, ignoring, and repetition: on the relation between negative priming and inhibition of return. |
Q48732911 | Attention and memory-related responses of neurons in the lateral intraparietal area during spatial and shape-delayed match-to-sample tasks |
Q41789874 | Attention as foraging for information and value. |
Q41149680 | Attention, uncertainty, and free-energy |
Q42120985 | Attentional Bias for Threat: Evidence for Delayed Disengagement from Emotional Faces |
Q41128337 | Attentional asymmetry in schizophrenia: controlled and automatic processes |
Q49126766 | Attentional tracking and inhibition of return in dynamic displays |
Q52189803 | Auditory and audiovisual inhibition of return. |
Q48872626 | Auditory cues and inhibition of return: the importance of oculomotor activation |
Q52115540 | Auditory frequency-based inhibition differs from spatial IOR. |
Q37178126 | Behavioral and neural interaction between spatial inhibition of return and the Simon effect. |
Q94461739 | Behavioral and neuronal study of inhibition of return in barn owls |
Q34672321 | Central and Peripheral Precuing of Forced-Choice Discrimination |
Q41692292 | Components of reflexive visual orienting to moving objects |
Q48707611 | Correlates of capture of attention and inhibition of return across stages of visual processing |
Q51831659 | Covert attention regulates saccadic reaction time by routing between different visual-oculomotor pathways. |
Q51962426 | Disentangling perceptual and motor components in inhibition of return. |
Q52185693 | Disinhibition of return: unnecessary and unlikely. |
Q52218042 | Does "inhibition of return" occur in discrimination tasks? |
Q52191840 | Does IOR occur in discrimination tasks? Yes, it does, but later. |
Q46341178 | Endogenous orienting in the archer fish |
Q48180194 | Enhanced probe discrimination at the location of a colour singleton. |
Q48627266 | Evidence for an attentional component in saccadic inhibition of return |
Q30442216 | Evoked and intrinsic asymmetries during auditory attention: implications for the contralateral and neglect models of functioning |
Q52129086 | Examining location-based and object-based components of inhibition of return in static displays. |
Q52097375 | Examining the time course of facilitation and inhibition with simultaneous onset and offset cues. |
Q51939425 | Exogenous cuing of distractor location facilitates location selection by inhibition of return. |
Q48526874 | Explicit eye movements failed to facilitate the precision of subsequent attentional localization |
Q35141732 | Exploring the consequences of the previous trial |
Q33844901 | Eye movement statistics in humans are consistent with an optimal search strategy |
Q52133060 | Facilitative and inhibitory effects of cuing sound duration, intensity, and timbre. |
Q52177048 | Facilitative and inhibitory effects of location and frequency cues: evidence of a modulation in perceptual sensitivity. |
Q53019660 | Fragments of the Roelofs effect: a bottom-up effect equal to the sum of its parts. |
Q36050507 | Frontoparietal cortical networks for directing attention and the eye to visual locations: identical, independent, or overlapping neural systems? |
Q47775487 | Further Tests of a Dynamic-Adjustment Account of Saccade Targeting During the Reading of Chinese |
Q35945096 | Gaze cueing of attention: visual attention, social cognition, and individual differences. |
Q55982827 | Guided Search 2.0 A revised model of visual search |
Q48810675 | Hand deviations away from visual cues: indirect evidence for inhibition |
Q35212129 | Human cortical mechanisms of visual attention during orienting and search |
Q51763844 | Immediate Neural Plasticity Involving Reaction Time in a Saccadic Eye Movement Task is Intact in Children With Fetal Alcohol Spectrum Disorder. |
Q34854062 | In search of a reliable electrophysiological marker of oculomotor inhibition of return |
Q52007526 | Individual performance based on cognitive experimental measurements? The case of inhibition of return. |
Q30478924 | Infant eye and head movements toward the side opposite the cue in the anti-saccade paradigm |
Q33640413 | Influence of environmental statistics on inhibition of saccadic return |
Q52212758 | Inhibition and disinhibition of return: evidence from temporal order judgments. |
Q52036521 | Inhibition of object identity in inhibition of return: implications for encoding and retrieving inhibitory processes. |
Q28140156 | Inhibition of return |
Q52166576 | Inhibition of return and attentional control settings. |
Q52104616 | Inhibition of return and manual pointing movements. |
Q52001163 | Inhibition of return and nonspecific preparation: separable inhibitory control mechanisms in space and time. |
Q44401562 | Inhibition of return and the human frontal eye fields |
Q52119994 | Inhibition of return for target discriminations: the effect of repeating discriminated and irrelevant stimulus dimensions. |
Q52095316 | Inhibition of return for the length of a line? |
Q86678164 | Inhibition of return in a discrimination task |
Q51980279 | Inhibition of return in a selective reaching task: an investigation of reference frames. |
Q52101887 | Inhibition of return in children and adolescents. |
Q48588501 | Inhibition of return in cue-target and target-target tasks |
Q52193255 | Inhibition of return in location- and identity-based choice decision tasks. |
Q52142543 | Inhibition of return in manual and saccadic response systems. |
Q51986793 | Inhibition of return in microsaccades. |
Q52172983 | Inhibition of return in spatial attention: direct evidence for collicular generation. |
Q52119584 | Inhibition of return in static and dynamic displays. |
Q34336761 | Inhibition of return in the archer fish. |
Q52174352 | Inhibition of return is composed of attentional and oculomotor processes. |
Q52200526 | Inhibition of return is not detected using illusory line motion. |
Q52097747 | Inhibition of return spreads across 3-D space |
Q72072223 | Inhibition of return to object-based and environment-based locations |
Q52095314 | Inhibition of return to occluded objects. |
Q48588072 | Inhibition of return: A phenomenon in search of a definition and a theoretical framework |
Q47416144 | Inhibition of return: Dissociating attentional and oculomotor components |
Q37806988 | Inhibition of return: Twenty years after. |
Q52092628 | Inhibition of return: a graphical meta-analysis of its time course and an empirical test of its temporal and spatial properties. |
Q52173295 | Inhibition of return: support for generality of the phenomenon. |
Q52002592 | Inhibition of visual discrimination during a memory-guided saccade task. |
Q38552698 | Inhibitory processes in auditory selective attention: evidence of location-based and frequency-based inhibition of return |
Q48444041 | Interaction between location- and frequency-based inhibition of return in human auditory system |
Q30481782 | Intra- and cross-modal cuing of spatial attention: Time courses and mechanisms |
Q30653704 | Investigating attention in complex visual search |
Q46034180 | Involuntary attention and identification accuracy. |
Q52115542 | Irrelevant singletons capture attention: evidence from inhibition of return. |
Q38490474 | Larger IOR effects following forget than following remember instructions depend on exogenous attentional withdrawal and target localization |
Q52007013 | Location and shape in inhibition of return. |
Q36262717 | Long-Term Experience of Chinese Calligraphic Handwriting Is Associated with Better Executive Functions and Stronger Resting-State Functional Connectivity in Related Brain Regions |
Q50795050 | Magnocellular and parvocellular pathway influences on location-based inhibition-of-return. |
Q52194898 | Manipulating the disengage operation of covert visual spatial attention. |
Q40778310 | Measuring attention using the Posner cuing paradigm: the role of across and within trial target probabilities |
Q48267365 | Modulation of saccadic intrusions by exogenous and endogenous attention |
Q50722603 | Motor IOR revealed for reaching. |
Q52089489 | Multimodal inhibition of return effects in adults with and without Down syndrome. |
Q33992135 | Multiple cueing dissociates location- and feature-based repetition effects |
Q41332756 | Naso-temporal asymmetry for signals invisible to the retinotectal pathway |
Q35560269 | Nasotemporal ERP differences: evidence for increased inhibition of temporal distractors |
Q28141154 | Neural basis of endogenous and exogenous spatial orienting. A functional MRI study |
Q39042502 | Neural correlates of spatial orienting in the human superior colliculus |
Q38873947 | Neural mechanisms of selective attention in the somatosensory system |
Q34165691 | Object-based selection within and beyond the focus of spatial attention |
Q52167060 | Object-based visual attention with endogenous orienting. |
Q48493651 | Oculomotor distraction by signals invisible to the retinotectal and magnocellular pathways. |
Q52230181 | Oculomotor readiness and covert orienting: differences between central and peripheral precues. |
Q38008576 | On the measurement of the effects of alcohol and illicit substances on inhibition of return |
Q50762513 | On the nature of the delayed "inhibitory" cueing effects generated by uninformative arrows at fixation. |
Q29040437 | Orienting of attention and eye movements |
Q52098492 | Parallel allocation of attention prior to the execution of saccade sequences |
Q44912308 | Parietal lobe lesions disrupt saccadic remapping of inhibitory location tagging |
Q43842110 | Pharmacological modulation of the neural basis underlying inhibition of return (IOR) in the human 5-HT2A agonist and NMDA antagonist model of psychosis |
Q52172479 | Predictability of the cue-target relation and the time-course of auditory inhibition of return. |
Q36994206 | Puppets, robots, critics, and actors within a taxonomy of attention for developmental disorders |
Q58799120 | RT Slowing to Valid Cues on a Reflexive Attention Task in Children and Young Adults |
Q37863529 | Recently inhibited responses are avoided for both masked and nonmasked primes in a spatial negative priming task |
Q37416823 | Reconceptualizing inhibition of return as habituation of the orienting response |
Q48939376 | Reflexive joint attention depends on lateralized cortical connections |
Q38479674 | Response to an intervening event reverses nonspatial repetition effects in 2AFC tasks: nonspatial IOR? |
Q48594988 | Saccade performance in the nasal and temporal hemifields |
Q51968128 | Search for multiple targets: remember the targets, forget the search. |
Q51939372 | Sensory biases produce alternation advantage found in sequential saccadic eye movement tasks. |
Q52017425 | Sequence effects in a spatial cueing task: endogenous orienting is sensitive to orienting in the preceding trial. |
Q37228950 | Space-based but not object-based inhibition of return is impaired in Parkinson's disease |
Q71583710 | Spatial attention and eye movements |
Q50595627 | Spatial constancy of attention across eye movements is mediated by the presence of visual objects. |
Q34634344 | Spatial interactions between successive eye and arm movements: signal type matters |
Q52087452 | Stimulus-response probability and inhibition of return. |
Q54199687 | Subitizing and counting depend on different attentional mechanisms: evidence from visual enumeration in afterimages. |
Q52089640 | Supporting the attentional momentum view of IOR: is attention biased to go right? |
Q50358165 | Target localization among concurrent sound sources: no evidence for the inhibition of previous distractor responses |
Q48869872 | Temporal and spatial characteristics of attention to facilitate manual and eye-movement responses |
Q51917647 | Temporal expectancy modulates inhibition of return in a discrimination task. |
Q97517771 | Ten Testable Properties of Consciousness |
Q33711220 | The Different Inhibition of Return (IOR) Effects of Emergency Managerial Experts and Novices: An Event-Related Potentials Study |
Q79873367 | The contribution of non-ocular response inhibition to visual inhibition of return |
Q52032393 | The effect of previous trial type on inhibition of return. |
Q52127667 | The effect of the physical characteristics of cues and targets on facilitation and inhibition. |
Q52890420 | The endogenous modulation of IOR is nasal-temporal asymmetric. |
Q56095966 | The eyes have it! Reflexive orienting is triggered by nonpredictive gaze |
Q52220251 | The functional role of attention for spatial coding in the Simon effect. |
Q48212841 | The gap effect and inhibition of return: interactive effects on eye movement latencies |
Q92887295 | The gap effect reduces both manual and saccadic inhibition of return (IOR) |
Q48565488 | The inter-trial effects of stimulus and saccadic direction on prosaccades and antisaccades, in controls and schizophrenia patients |
Q51849040 | The involvement of bottom-up saliency processing in endogenous inhibition of return. |
Q52059736 | The left-to-right bias in inhibition of return is due to the direction of reading. |
Q37324072 | The mechanism underlying inhibition of saccadic return. |
Q37223818 | The neural correlates of social attention: automatic orienting to social and nonsocial cues. |
Q52131325 | The presence of a nonresponding effector increases inhibition of return. |
Q51975343 | The relationship between covert and overt attention in endogenous cuing. |
Q51986737 | The role of affordances in inhibition of return. |
Q52005224 | The role of spatial working memory in inhibition of return: Evidence from divided attention tasks |
Q52227415 | The spatial distribution of attention following an exogenous cue. |
Q30377344 | The superior colliculus is sensitive to gestalt-like stimulus configuration in hemispherectomy patients. |
Q51984553 | The temporal order judgment paradigm: subcortical attentional contribution under exogenous and endogenous cueing conditions. |
Q45769236 | The uniqueness of social attention revisited: working memory load interferes with endogenous but not social orienting |
Q30474289 | Time course of allocation of spatial attention by acoustic cues in non-human primates |
Q34169972 | Timing of reflexive visuospatial orienting in young, young-old, and old-old adults |
Q48453233 | Two mechanisms underlying inhibition of return |
Q51917903 | Unconscious cueing effects in saccadic eye movements--facilitation and inhibition in temporal and nasal hemifield. |
Q41692063 | Unmasking the inhibition of return phenomenon |
Q81011617 | Vector averaging of inhibition of return |
Q48102741 | Violating the main sequence: asymmetries in saccadic peak velocities for saccades into the temporal versus nasal hemifields |
Q36067519 | Visual cognition during real social interaction |
Q48451325 | Visual marking for search: behavioral and event-related potential analyses |
Q52166138 | Volitional covert orienting to a peripheral cue does not suppress cue-induced inhibition of return. |
Q50636019 | What causes IOR? Attention or perception? - manipulating cue and target luminance in either blocked or mixed condition. |
Q33316028 | What happens in between? Human oscillatory brain activity related to crossmodal spatial cueing |
Q51969405 | Within- and between-nervous-system inhibition of return: observation is as good as performance. |
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