| Q36768379 | A Motion-from-Form Mechanism Contributes to Extracting Pattern Motion from Plaids. |
| Q35956540 | A compact field guide to the study of microsaccades: Challenges and functions. |
| Q48953011 | A comparison between the magnetic scleral search coil and infrared reflection methods for saccadic eye movement analysis |
| Q41595428 | A hypothetical explanation of congenital nystagmus |
| Q40309495 | A neurophysiological model for anomalous correspondence based on mechanisms of sensory fusion |
| Q45103269 | A new technique for estimating chromatic isoluminance in humans and monkeys. |
| Q40288769 | A novel and inexpensive digital system for eye movement recordings using magnetic scleral search coils |
| Q92541869 | A novel fiber Bragg grating system for eye tracking |
| Q71378215 | A quantitative study of auditory-evoked saccadic eye movements in two dimensions |
| Q52242698 | A self calibration method using a soft clustering procedure for eye movement recordings. |
| Q58608778 | Accuracy-Precision Trade-off in Human Sound Localisation |
| Q69129175 | Adaptation of ocular vergence to stimulation with large disparities |
| Q74783591 | Adjustment of fixation duration in visual search |
| Q48389289 | Alternating optokinetic nystagmus (OKN) induced by intermittent display of stationary gratings |
| Q34099964 | Amplitudes and directions of individual saccades can be adjusted by corollary discharge |
| Q81552251 | An invariant for timing of saccades during visual search |
| Q44024091 | Analysis of electro-oculographic artifact during vertical saccadic eye movements |
| Q27303019 | Anisotropy in spatial summation properties of human Ocular-Following Response (OFR) |
| Q41591770 | Antisaccades and remembered saccades in Parkinson's disease |
| Q30481513 | Audiovisual integration of speech in a bistable illusion. |
| Q50553657 | Auditory-visual interaction in the generation of saccades in man. |
| Q60048077 | Binocular Summation for Reflexive Eye Movements: A Potential Diagnostic Tool for Stereodeficiencies |
| Q68082297 | Binocular co-ordination of human horizontal saccadic eye movements |
| Q84903325 | Binocular coordination during scanning of simple dot stimuli |
| Q42027636 | Binocular eye movement control and motion perception: what is being tracked? |
| Q36607581 | Binocular micromovement recording of human eyes:--methods |
| Q33941293 | Binocular onset rivalry at the time of saccades and stimulus jumps |
| Q64901080 | Binocular saccadic eye movements in multiple sclerosis. |
| Q55410232 | Binocular summation for reflexive eye movements. |
| Q43604583 | Cancellation of self-induced retinal image motion during smooth pursuit eye movements |
| Q74484938 | Cause of kinematic differences during centrifugal and centripetal saccades |
| Q45029394 | Cognitive performance in high-altitude climbers: a comparative study of saccadic eye movements and neuropsychological tests. |
| Q37730554 | Combining 1-D components to extract pattern information: It is about more than component similarity |
| Q35037145 | Commentary: smooth pursuit eye movements: from low-level to high-level vision |
| Q48923441 | Comparing eye movements recorded by search coil and infrared eye tracking |
| Q81048594 | Comparison of Harms tangent screen and search coil recordings in patients with trochlear nerve palsy |
| Q28140004 | Comparison of artificial eye amplitudes with acrylic and hydroxyapatite spherical enucleation implants |
| Q70992390 | Compensatory eye movements during active and passive head movements: fast adaptation to changes in visual magnification |
| Q49145388 | Component stretching in fast and slow oblique saccades in the human |
| Q39212525 | Computer analysis of rapid eye movements |
| Q73422736 | Congenital periodic alternating nystagmus. Diagnosis and Management |
| Q36691516 | Contrast sensitivity, first-order motion and Initial ocular following in demyelinating optic neuropathy |
| Q52199595 | Control of fixation duration in a simple search task. |
| Q67841286 | Control of vergence: gating among disparity inputs by voluntary target selection |
| Q43802659 | Coordination of hand movements and saccades: evidence for a common and a separate pathway |
| Q37346205 | Corollary discharge contributes to perceived eye location in monkeys |
| Q53440841 | Development and validation of a high-speed stereoscopic eyetracker. |
| Q42673299 | Diazepam-induced changes of optokinetic nystagmus fast phase |
| Q73297048 | Different visual search strategies in stationary and moving radial patterns |
| Q52177207 | Disconjugate adaptation of saccades: contribution of binocular and monocular mechanisms. |
| Q47218006 | Disconjugate oculomotor learning caused by feeble image-size inequality: differences between secondary and tertiary positions |
| Q49130123 | Disconjugate vertical memory-guided saccades to disparate targets |
| Q91037402 | Do pupil-based binocular video eye trackers reliably measure vergence? |
| Q34164376 | Downbeat nystagmus: characteristics and localization of lesions |
| Q52086506 | Dynamic sound localization during rapid eye-head gaze shifts. |
| Q48891394 | Dynamics of distributed 1D and 2D motion representations for short-latency ocular following |
| Q37553242 | EMG-based and gaze-tracking-based man-machine interfaces. |
| Q44306201 | Effect of target saliency on human smooth pursuit initiation: interocular transfer |
| Q30497074 | Effect of unilateral vestibular deafferentation on the initial human vestibulo-ocular reflex to surge translation |
| Q43094952 | Effects of acupuncture on foveation characteristics in congenital nystagmus |
| Q46428332 | Effects of diazepam on the latency of saccades for luminance and binocular disparity defined stimuli |
| Q49069821 | Effects of smooth pursuit eye movement on ocular responses to sudden background motion in humans |
| Q73916763 | Effects of tenotomy surgery on congenital nystagmus waveforms in adult patients. Part I. Wavelet spectral analysis |
| Q48226598 | Evidence for nonretinal feedback in combined version-vergence eye movements |
| Q30810395 | Eye Tracking Research and Technology: Towards Objective Measurement of Data Quality |
| Q71775122 | Eye movement recording as a clinical tool |
| Q36723850 | Eye movement sequence generation in humans: Motor or goal updating? |
| Q38082319 | Eye movement testing in clinical examination |
| Q36885483 | Eye movements between saccades: Measuring ocular drift and tremor |
| Q40457013 | Eye movements. |
| Q73576426 | Eye muscle force development and saccadic velocity in thyroid-associated ophthalmopathy |
| Q41116263 | Foveation dynamics in congenital nystagmus. I: Fixation |
| Q41116271 | Foveation dynamics in congenital nystagmus. II: Smooth pursuit |
| Q41116277 | Foveation dynamics in congenital nystagmus. III: Vestibulo-ocular reflex |
| Q66988613 | Free scanning of gratings produces patterned retinal exposure |
| Q52125725 | Fusional limits for a large random-dot stereogram |
| Q52504780 | Fusional movements by peripheral retinal stimulation ('peripheral motor fusion'). |
| Q48270198 | Geometric computations underlying eye-hand coordination: orientations of the two eyes and the head. |
| Q44433001 | Gravity and the vertical vestibulo-ocular reflex |
| Q45215885 | Head-shaking nystagmus in patients with unilateral peripheral vestibular lesions |
| Q68966850 | Human fixation and pursuit in normal and open-loop conditions: effects of central and peripheral retinal targets |
| Q48550298 | Human ocular counterroll: assessment of static and dynamic properties from electromagnetic scleral coil recordings |
| Q36787100 | Human ocular following initiated by competing image motions: evidence for a winner-take-all mechanism |
| Q36924041 | Human ocular following: evidence that responses to large-field stimuli are limited by local and global inhibitory influences |
| Q72390183 | Human ocular responses to translation of the observer and of the scene: dependence on viewing distance |
| Q44786163 | Human ocular torsion during parabolic flights: an analysis with scleral search coil |
| Q44317666 | Human ocular vergence movements induced by changing size and disparity. |
| Q27335717 | Human short-latency ocular vergence responses produced by interocular velocity differences |
| Q51659161 | Human smooth and saccadic eye movements during voluntary pursuit of different target motions on different backgrounds. |
| Q48149912 | Human smooth pursuit during transient perturbations of predictable and unpredictable target movement |
| Q36319862 | Human vergence eye movements initiated by competing disparities: evidence for a winner-take-all mechanism |
| Q36925774 | Human vergence eye movements to oblique disparity stimuli: evidence for an anisotropy favoring horizontal disparities |
| Q72130578 | Human vestibulo-ocular responses to rapid, helmet-driven head movements |
| Q73527678 | Image analysis of quick phase eye movements in nystagmus with high-speed video system |
| Q42177175 | Impact of motion-associated noise on intrinsic optical signal imaging in humans with optical coherence tomography. |
| Q36683957 | Influence of Target Parameters on Fixation Stability in Normal and Strabismic Monkeys |
| Q34675022 | Influence of retinal image shifts and extra-retinal eye movement signals on binocular rivalry alternations. |
| Q48563159 | Influences of hand movements on eye movements in tracking tasks in man |
| Q81590142 | Inhibition of return is not a foraging facilitator in saccadic search and free viewing |
| Q73141535 | Inhibition of saccade return (ISR): spatio-temporal properties of saccade programming |
| Q34482303 | Initial ocular following in humans: a response to first-order motion energy |
| Q46604551 | Initiation and cancellation of the human heave linear vestibulo-ocular reflex after unilateral vestibular deafferentation |
| Q34211375 | Intermittent diplopia and strabismus caused by ocular neuromyotonia |
| Q39586289 | Interocular timing differences in the horizontal components of human saccades |
| Q58694009 | Is the eye-movement field confused about fixations and saccades? A survey among 124 researchers |
| Q74425637 | Judging distance from ocular convergence |
| Q35809376 | Kinematics of vertical saccades during the yaw vestibulo-ocular reflex in humans |
| Q67824586 | Long-term nonconjugate adaptation of human saccades to anisometropic spectacles |
| Q41618361 | Magnetic eye tracking in mice. |
| Q41080254 | Method for identifying amblyopes whose reduced line acuity is caused by defective selection and/or control of gaze |
| Q33615830 | Modern vestibular function testing |
| Q48389858 | Motion of the eye immediately after a saccade |
| Q46515806 | Motion sensitivity during fixation in straight-ahead and lateral eccentric gaze |
| Q48556965 | Multi-directional shifts of optokinetic responses to binocular-rivalrous motion stimuli |
| Q38260943 | New understanding on the contribution of the central otolithic system to eye movement and skew deviation |
| Q36141228 | No Evidence for a Saccadic Range Effect for Visually Guided and Memory-Guided Saccades in Simple Saccade-Targeting Tasks |
| Q68155044 | Nonconjugate adaptation of human saccades to anisometropic spectacles: Meridianspecificity |
| Q37478133 | Nystagmus as a sign of labyrinthine disorders--three-dimensional analysis of nystagmus |
| Q48547833 | Ocular Motility Anomalies in Developmental Misdirection of the Optic Chiasm |
| Q36224673 | Ocular following in humans: spatial properties |
| Q27335775 | Ocular-following responses to white noise stimuli in humans reveal a novel nonlinearity that results from temporal sampling |
| Q47172448 | Oculomotor consequences of feeble image size inequality at near reading distance |
| Q74173925 | On the nature of gain changes of the optokinetic reflex |
| Q42319271 | Optics of the human cornea influence the accuracy of stereo eye-tracking methods: a simulation study. |
| Q45234515 | Optokinetic reactions in man elicited by localized retinal motion stimuli |
| Q43806107 | Organisation of signals involved in binocular perception and vergence control |
| Q44037088 | Parallel motion processing for the initiation of short-latency ocular following in humans. |
| Q45177964 | Patterns of neck muscle activation in cats during reflex and voluntary head movements |
| Q77797804 | Peripheral vision and oculomotor control during visual search |
| Q67982879 | Precise recording of eye movement: the IRIS technique. Part 1 |
| Q48555058 | Prediction in the oculomotor system: smooth pursuit during transient disappearance of a visual target |
| Q49080490 | Predictive smooth pursuit of complex two-dimensional trajectories in monkey: component interactions |
| Q44054510 | Proprioceptive information neither improves fixation stability nor reduces autokinesis |
| Q47412896 | Pupil size dynamics during fixation impact the accuracy and precision of video-based gaze estimation. |
| Q51644287 | Pursuing motion illusions: a realistic oculomotor framework for Bayesian inference. |
| Q50797238 | Pursuit afternystagmus asymmetry in humans. |
| Q67975468 | Reconsideration of Bell's phenomenon using a magnetic search coil method |
| Q30359358 | Reconstructing spectral cues for sound localization from responses to rippled noise stimuli. |
| Q67995874 | Recording eye movement during stepping in place with a CCD (charge-coupled device) imagesensor |
| Q49022978 | Recording eye movements with video-oculography and scleral search coils: a direct comparison of two methods |
| Q52268414 | Relative orientation of primary positions of the two eyes. |
| Q33858220 | Relearning sound localization with new ears. |
| Q36498977 | Reliability and application variability of a commercially available infrared videonystagmography unit |
| Q48523273 | Representation of head-centric flow in the human motion complex. |
| Q30569032 | Retinal visual processing constrains human ocular following response |
| Q36692836 | Reversed short-latency ocular following |
| Q37783780 | Review of the major findings about Duane retraction syndrome (DRS) leading to an updated form of classification |
| Q52171123 | Saccade amplitude disconjugacy induced by aniseikonia: role of monocular depth cues. |
| Q45069978 | Saccade control without a fovea |
| Q73348713 | Saccade target selection during visual search |
| Q41109185 | Saccades to targets in three-dimensional space: dependence of saccadic latency on target location |
| Q68897934 | Saccadic eye movements in essential blepharospasm |
| Q43796940 | See-saw nystagmus and congenital nystagmus identified in the non-decussating retinal-fugal fiber syndrome |
| Q48353673 | Selective adaptation of internally triggered saccades made to visual targets |
| Q48213414 | Senescence of human visual-vestibular interactions: smooth pursuit, optokinetic, and vestibular control of eye movements with aging |
| Q44408608 | Sensorimotor transformation during eye movements to remembered visual targets |
| Q36737562 | Short-latency disparity vergence eye movements: a response to disparity energy |
| Q36925585 | Short-latency disparity vergence eye movements: dependence on the preëxisting vergence angle. |
| Q34360282 | Short-latency disparity vergence in humans: evidence for early spatial filtering |
| Q36739444 | Short-latency disparity-vergence eye movements in humans: sensitivity to simulated orthogonal tropias |
| Q31141942 | Short-latency ocular following in humans is dependent on absolute (rather than relative) binocular disparity |
| Q49027991 | Short-latency ocular following in humans: sensitivity to binocular disparity |
| Q48376809 | Simultaneous hand tracking does not affect human vergence pursuit |
| Q35650025 | Simultaneous recordings of human microsaccades and drifts with a contemporary video eye tracker and the search coil technique |
| Q41681511 | Spatial and temporal factors determine auditory-visual interactions in human saccadic eye movements. |
| Q36197628 | Spatial summation properties of the human ocular following response (OFR): dependence upon the spatial frequency of the stimulus |
| Q36953686 | Spatial summation properties of the human ocular following response (OFR): evidence for nonlinearities due to local and global inhibitory interactions |
| Q73472068 | Specificity of saccadic adaptation in three-dimensional space |
| Q68686793 | Static roll and the vestibulo-ocular reflex (VOR) |
| Q47655122 | Suppression and Contrast Normalization in Motion Processing |
| Q43806110 | Systematic eye movements do not account for the perception of motion during attentive tracking |
| Q70755698 | Task Dependent Variations of Ocular Lateropulsion in Wallenberg’s Syndrome |
| Q35785903 | Temporal dynamics of ocular position dependence of the initial human vestibulo-ocular reflex |
| Q35781946 | Temporal dynamics of semicircular canal and otolith function following acute unilateral vestibular deafferentation in humans |
| Q37014095 | Temporal evolution of pattern disparity processing in humans |
| Q44701953 | Temporospatial properties of the effects of bottom-up attention on smooth pursuit initiation in humans |
| Q37345161 | Terminator disparity contributes to stereo matching for eye movements and perception |
| Q36597962 | Testing the odds of inherent vs. observed overdispersion in neural spike counts |
| Q48337084 | The alternation of optokinetic responses driven by moving stimuli in humans |
| Q40930668 | The art of braking: Post saccadic oscillations in the eye tracker signal decrease with increasing saccade size |
| Q28353983 | The effect of scleral search coil lens wear on the eye |
| Q30487352 | The effect of spatial-temporal audiovisual disparities on saccades in a complex scene. |
| Q48504110 | The effects of preceding moving stimuli on the initial part of smooth pursuit eye movement |
| Q50801182 | The effects of tobacco smoking on smooth pursuit eye movements |
| Q38560288 | The human vertical vestibulo-ocular reflex during combined linear and angular acceleration with near-target fixation |
| Q36726193 | The initial ocular following responses elicited by apparent-motion stimuli: reversal by inter-stimulus intervals |
| Q30497628 | The initial torsional Ocular Following Response (tOFR) in humans: a response to the total motion energy in the stimulus? |
| Q33641950 | The photomyoclonic reflex: an artefact in the clinical electroretinogram |
| Q47635673 | The pupil is faster than the corneal reflection (CR): Are video based pupil-CR eye trackers suitable for studying detailed dynamics of eye movements? |
| Q70609018 | The relationship between absolute disparity and ocular vergence |
| Q49111500 | The relationship between curvature and velocity in two-dimensional smooth pursuit eye movements |
| Q28306827 | The significance of microsaccades for vision and oculomotor control |
| Q72834192 | The spatial signal for saccadic eye movements emphasizes visual boundaries |
| Q53929324 | The use of clonazepam in the treatment of nystagmus-induced oscillopsia. |
| Q36151640 | The vergence eye movements induced by radial optic flow: some fundamental properties of the underlying local-motion detectors |
| Q30416616 | The visual input to the retina during natural head-free fixation. |
| Q36183799 | Three dimensional kinematics of rapid compensatory eye movements in humans with unilateral vestibular deafferentation |
| Q41981025 | Tracking the eye non-invasively: simultaneous comparison of the scleral search coil and optical tracking techniques in the macaque monkey |
| Q72390143 | Transfer of short-term adaptation in human saccadic eye movements |
| Q68871253 | Treatment of manifest latent nystagmus |
| Q77512146 | Using the eye-movement system to control the head |
| Q36926035 | Version and vergence eye movements in humans: open-loop dynamics determined by monocular rather than binocular image speed |
| Q74397259 | Vertical misalignment in unilateral sixth nerve palsy |
| Q67711515 | Vertical motor fusion |
| Q70939876 | Vertical vergence movements |
| Q45228884 | Vertical visual-vestibular interaction in normal human subjects |
| Q48261483 | Vestibular catch-up saccades augmenting the human transient heave linear vestibulo-ocular reflex |
| Q35747262 | Vestibulo-ocular reflex to transient surge translation: complex geometric response ablated by normal aging |
| Q48568866 | Visual-vestibular interaction studied with stroboscopically illuminated visual patterns |