scholarly article | Q13442814 |
P50 | author | Susana Martínez-Conde | Q20022445 |
P2093 | author name string | Stephen L Macknik | |
P2860 | cites work | Saccades and microsaccades during visual fixation, exploration, and search: foundations for a common saccadic generator | Q83192027 |
Microsaccadic efficacy and contribution to foveal and peripheral vision | Q84524863 | ||
Characteristics of Spontaneous Square-Wave Jerks in the Healthy Macaque Monkey during Visual Fixation | Q27307651 | ||
Microsaccadic eye movements and firing of single cells in the striate cortex of macaque monkeys | Q28145775 | ||
Vision with a stabilized retinal image | Q28244787 | ||
The role of fixational eye movements in visual perception | Q28246122 | ||
Microsaccades: small steps on a long way | Q28255149 | ||
Microsaccades: a neurophysiological analysis | Q28256803 | ||
Microsaccades counteract perceptual filling-in | Q28306816 | ||
The significance of microsaccades for vision and oculomotor control | Q28306827 | ||
Microsaccades drive illusory motion in the Enigma illusion | Q30484235 | ||
Eye movements under various conditions of image fading. | Q30496887 | ||
Distinctive features of saccadic intrusions and microsaccades in progressive supranuclear palsy | Q30500965 | ||
V1 neurons respond differently to object motion versus motion from eye movements. | Q30665218 | ||
Intersaccadic drift velocity is sensitive to short-term hypobaric hypoxia. | Q33164354 | ||
The function of bursts of spikes during visual fixation in the awake primate lateral geniculate nucleus and primary visual cortex | Q34162251 | ||
Microsaccades uncover the orientation of covert attention | Q34188376 | ||
An integrated model of fixational eye movements and microsaccades | Q34211320 | ||
Saccades during attempted fixation in parkinsonian disorders and recessive ataxia: from microsaccades to square-wave jerks | Q34629738 | ||
Microsaccades precisely relocate gaze in a high visual acuity task. | Q34683543 | ||
Simultaneous recordings of human microsaccades and drifts with a contemporary video eye tracker and the search coil technique | Q35650025 | ||
Miniature eye movement | Q36506827 | ||
Fixational eye movements in normal and pathological vision | Q36607892 | ||
An oculomotor continuum from exploration to fixation | Q36762632 | ||
The effects of fixation target size and luminance on microsaccades and square-wave jerks. | Q36773770 | ||
Microsaccades restore the visibility of minute foveal targets. | Q37086664 | ||
The extraordinarily rapid disappearance of entoptic images | Q37456014 | ||
Triggering mechanisms in microsaccade and saccade generation: a novel proposal | Q37939293 | ||
The impact of microsaccades on vision: towards a unified theory of saccadic function. | Q38074859 | ||
The vanishing of the sun: a manifestation of cortical plasticity | Q38502897 | ||
Changes in visibility as a function of spatial frequency and microsaccade occurrence. | Q39149693 | ||
Simultaneous recordings of ocular microtremor and microsaccades with a piezoelectric sensor and a video-oculography system | Q39912340 | ||
Measurement of binocular eye movements of subjects in the sitting position | Q40912360 | ||
Variation of Fixation Direction with Colour of Fixation Target | Q40940326 | ||
A neural mechanism for microsaccade generation in the primate superior colliculus | Q42170046 | ||
Different fixational eye movements mediate the prevention and the reversal of visual fading | Q43511867 | ||
Selective activation of visual cortex neurons by fixational eye movements: implications for neural coding. | Q43647476 | ||
Paralysis of the awake human: Visual perceptions | Q44109168 | ||
What is the best fixation target? The effect of target shape on stability of fixational eye movements | Q44194040 | ||
Microsaccades as an overt measure of covert attention shifts. | Q44225504 | ||
Contributions of fixational eye movements to the discrimination of briefly presented stimuli | Q44757806 | ||
Microsaccade and drift dynamics reflect mental fatigue. | Q44905430 | ||
Microsaccades counteract visual fading during fixation. | Q46901797 | ||
Why have microsaccades become larger? Investigating eye deformations and detection algorithms | Q47575300 | ||
Dominant frequency content of ocular microtremor from normal subjects | Q48200882 | ||
Effects of driving time on microsaccadic dynamics. | Q48449414 | ||
Shift of visual fixation dependent on background illumination | Q48470165 | ||
Toward a model of microsaccade generation: the case of microsaccadic inhibition | Q48896627 | ||
Task difficulty in mental arithmetic affects microsaccadic rates and magnitudes. | Q50664947 | ||
Highly informative natural scene regions increase microsaccade production during visual scanning. | Q51110297 | ||
Microsaccades and blinks trigger illusory rotation in the "rotating snakes" illusion. | Q51374292 | ||
Retinal image shifts, but not eye movements per se, cause alternations in awareness during binocular rivalry. | Q51908176 | ||
Fixational eye movements predict the perceived direction of ambiguous apparent motion. | Q53050479 | ||
The main sequence, a tool for studying human eye movements | Q56096161 | ||
Microsaccades Keep the Eyes' Balance During Fixation | Q57398530 | ||
Saccades without eye movements | Q59080149 | ||
Microsaccades during finely guided visuomotor tasks | Q68224310 | ||
Normal fixation of eccentric targets* | Q69572318 | ||
Eye position during fixation tasks: comparison of macaque and human | Q70080432 | ||
The role of microsaccades in high acuity observational tasks | Q71457369 | ||
Voluntary control of microsaccades during maintained monocular fixation | Q72210307 | ||
The interplay of drifts and flicks in binocular fixation | Q72362246 | ||
Microsaccades and the Velocity-Amplitude Relationship for Saccadic Eye Movements | Q72626673 | ||
Involuntary eye movements during fixation | Q73103410 | ||
Determination of the stimuli for involuntary drifts and saccadic eye movements | Q74257987 | ||
Fixational eye movements are not affected by abrupt onsets that capture attention | Q74344409 | ||
Involuntary motions of the eye during monocular fixation | Q75648143 | ||
Eye movements during fixation | Q76177187 | ||
Using the eye-movement system to control the head | Q77512146 | ||
Analysis of Eye Movements during Monocular and Binocular Fixation* | Q78805908 | ||
A simple after image method demonstrating the involuntary multidirectional eye movements during fixation | Q79434958 | ||
P433 | issue | 1718 | |
P407 | language of work or name | English | Q1860 |
P577 | publication date | 2017-04-01 | |
P1433 | published in | Philosophical Transactions of the Royal Society B | Q2153239 |
P1476 | title | Unchanging visions: the effects and limitations of ocular stillness | |
P478 | volume | 372 |
Q47150757 | Fixational Saccades and Their Relation to Fixation Instability in Strabismic Monkeys |
Q39153442 | Mechanisms of saccade suppression revealed in the anti-saccade task. |
Q55304072 | Modeling the Triggering of Saccades, Microsaccades, and Saccadic Intrusions. |
Q37675868 | Neuronal control of fixation and fixational eye movements. |
Q39153435 | Not moving: the fundamental but neglected motor function. |
Search more.