scholarly article | Q13442814 |
P6179 | Dimensions Publication ID | 1029436442 |
P356 | DOI | 10.1038/360583A0 |
P698 | PubMed publication ID | 1461280 |
P5875 | ResearchGate publication ID | 21694999 |
P50 | author | Martin S. Banks | Q56007662 |
P2093 | author name string | Crowell JA | |
Royden CS | |||
P2860 | cites work | A computer algorithm for reconstructing a scene from two projections | Q29395303 |
Visual perception of surface curvature. The spin variation and its physiological implications | Q41223770 | ||
Processing differential image motion. | Q52676617 | ||
Relations between the central Nervous System and the peripheral organs | Q56765411 | ||
Direction of self-motion is perceived from optical flow | Q59092785 | ||
On the sufficiency of the velocity field for perception of heading | Q67760553 | ||
Eye movements and optical flow | Q68701095 | ||
How do we avoid confounding the direction we are looking and the direction we are moving? | Q70264690 | ||
P433 | issue | 6404 | |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 583-585 | |
P577 | publication date | 1992-12-01 | |
P1433 | published in | Nature | Q180445 |
P1476 | title | The perception of heading during eye movements. | |
P478 | volume | 360 |
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Q83179157 | Aging affects the ability to use optic flow in the control of heading during locomotion |
Q34434186 | Asymmetrical masking between radial and parallel motion flow in transparent displays |
Q42084150 | Causal links between dorsal medial superior temporal area neurons and multisensory heading perception |
Q44454267 | Centric-minded templates for self-motion perception. |
Q33770552 | Cognitive neural prosthetics |
Q48387603 | Complex motion perception and its deficits |
Q52406013 | Computing the direction of heading from affine image flow. |
Q35744189 | Coordinates of Human Visual and Inertial Heading Perception |
Q90598464 | Cross-modal size-contrast illusion: Acoustic increases in intensity and bandwidth modulate haptic representation of object size |
Q33929676 | Decoding of MSTd population activity accounts for variations in the precision of heading perception |
Q54988772 | Depth Perception and the Perception of Events |
Q46924561 | Depth information and perceived self-motion during simulated gaze rotations |
Q51103836 | Detecting moving objects in an optic flow field using direction- and speed-tuned operators. |
Q47774967 | Differential processing of the direction and focus of expansion of optic flow stimuli in areas MST and V3A of the human visual cortex. |
Q30459942 | Direction specific biases in human visual and vestibular heading perception |
Q48206913 | Discrimination of curvature from motion during smooth pursuit eye movements and fixation |
Q37384361 | Displaying optic flow to simulate locomotion: Comparing heading and steering |
Q33826063 | Disrupted pursuit compensation during self-motion perception in early Alzheimer's disease |
Q90044831 | Distinct forms of motion sensitivity impairments in Alzheimer's disease |
Q47171924 | Distinct spatial coordinate of visual and vestibular heading signals in macaque FEFsem and MSTd |
Q44245776 | Driving as night falls: the contribution of retinal flow and visual direction to the control of steering |
Q44481125 | Early behavior of optokinetic responses elicited by transparent motion stimuli during depth-based attention |
Q48588484 | Eccentric eye and head positions in darkness induce deviation from the intended path |
Q38548905 | Effects of gaze angle and extraretinal eye movement information on visual locomotion control |
Q46795736 | Effects of roll and pitch components in retinal flow on heading judgement |
Q53878169 | Effects of spatial arrangement of visual stimulus on inverted self-motion perception induced by the foreground motion: examination of OKN-suppression hypothesis. |
Q48835384 | Egocentric perception through interaction among many sensory systems |
Q33858024 | Electrical microstimulation of cortical area MST biases heading perception in monkeys |
Q48706800 | Encoding of smooth pursuit direction and eye position by neurons of area MSTd of macaque monkey. |
Q37604284 | Eye Movements in Darkness Modulate Self-Motion Perception |
Q52912606 | Eye movements affect the perceived speed of visual motion. |
Q59339850 | Eye movements during path integration |
Q51939865 | Factors affecting curved versus straight path heading perception. |
Q46890611 | Foveal visual strategy during self-motion is independent of spatial attention. |
Q44803601 | Gaze anticipation during human locomotion |
Q77502705 | Guidance of locomotion on foot uses perceived target location rather than optic flow |
Q52894206 | Heading and path information from retinal flow in naturalistic environments. |
Q40675017 | Heading and path percepts from visual flow and eye pursuit signals |
Q48103254 | Heading detection from optic flow. |
Q52232533 | Heading detection using motion templates and eye velocity gain fields. |
Q60441050 | Heading perception and the allocation of attention |
Q36946190 | Heading recovery from optic flow: comparing performance of humans and computational models. |
Q44397912 | Heading representation in MST: sensory interactions and population encoding |
Q34445908 | Hitting what one wants to hit and missing what one wants to miss |
Q35917431 | How the unstable eye sees a stable and moving world |
Q48943456 | Human brain regions involved in heading estimation. |
Q73348689 | Human heading estimation during visually simulated curvilinear motion |
Q77797826 | Human heading judgments and object-based motion information |
Q52200527 | Human heading judgments in the presence of moving objects. |
Q52141411 | Humans can use optic flow to estimate distance of travel. |
Q36903500 | Humans do not have direct access to retinal flow during walking |
Q50240962 | Images, imagination, and movement: pictorial representations and their development in the work of James Gibson |
Q48580677 | Influence of a sensorimotor conflict on the memorization of a path traveled in virtual reality |
Q41672291 | Influence of gaze rotation on the visual response of primate MSTd neurons |
Q34110810 | Integration mechanisms for heading perception |
Q37173125 | Joint representation of translational and rotational components of optic flow in parietal cortex |
Q48276441 | MST neuronal responses to heading direction during pursuit eye movements |
Q44443301 | MSTd neuronal basis functions for the population encoding of heading direction |
Q51483991 | Mathematical requirements of visual-vestibular integration. |
Q36729500 | Modeling heading and path perception from optic flow in the case of independently moving objects |
Q34043525 | Monkey steering responses reveal rapid visual-motor feedback |
Q52360574 | Motion anisotropies and heading detection. |
Q36984032 | Multimodal coding of three-dimensional rotation and translation in area MSTd: comparison of visual and vestibular selectivity |
Q40841540 | Multimodal integration for the representation of space in the posterior parietal cortex |
Q50445796 | Multisensory control of a straight locomotor trajectory |
Q37752786 | Multisensory integration: resolving sensory ambiguities to build novel representations |
Q27303151 | Multisensory self-motion compensation during object trajectory judgments |
Q33799897 | Neural mechanisms for self-motion perception in area MST. |
Q41518932 | Neural mechanisms of visual motion perception in primates |
Q73435425 | Optic flow is used to control human walking |
Q48409799 | Optic flow: A brain region devoted to optic flow analysis? |
Q52047673 | Optic-flow-based perception of two-dimensional trajectories and the effects of a single landmark. |
Q73312049 | Optimal spatial frequencies for discrimination of motion direction in optic flow patterns |
Q48469065 | Optimal visual-vestibular integration under conditions of conflicting intersensory motion profiles. |
Q43799836 | Optimizing visual motion perception during eye movements. |
Q30499952 | Parietal area VIP causally influences heading perception during pursuit eye movements |
Q30581748 | Path perception and Filehne illusion compared: model and data |
Q44897680 | Path perception during rotation: influence of instructions, depth range, and dot density |
Q46002334 | Perceived head-centric speed is affected by both extra-retinal and retinal errors. |
Q73812972 | Perceived heading during simulated torsional eye movements |
Q36316260 | Perceiving Collision Impacts in Alzheimer's Disease: The Effect of Retinal Eccentricity on Optic Flow Deficits |
Q91850112 | Perceiving blurry scenes with translational optic flow, rotational optic flow or combined optic flow |
Q45098579 | Perceiving depth order during pursuit eye movement |
Q52877574 | Perceiving heading in the presence of moving objects. |
Q59092820 | Perception of heading |
Q73221860 | Perception of heading during rotation: sufficiency of dense motion parallax and reference objects |
Q48240002 | Perception of heading is a brain in the neck |
Q46176526 | Perception of heading without retinal optic flow |
Q45990789 | Perception of scene-relative object movement: Optic flow parsing and the contribution of monocular depth cues. |
Q72989040 | Perception of two-dimensional, simulated ego-motion trajectories from optic flow |
Q47879901 | Persistent perceptual delay for active head movement onset relative to sound onset with and without vision. |
Q73620271 | Predicting the present direction of heading |
Q43679789 | Pursuit affects precision of perceived heading for small viewing apertures |
Q43870866 | Pursuit compensation during self-motion |
Q44211135 | Pursuit speed compensation in cortical area MSTd |
Q33841379 | Receptive field dynamics underlying MST neuronal optic flow selectivity |
Q48523273 | Representation of head-centric flow in the human motion complex. |
Q93132159 | Retinal Stabilization Reveals Limited Influence of Extraretinal Signals on Heading Tuning in the Medial Superior Temporal Area |
Q44130305 | Retinal flow is sufficient for steering during observer rotation |
Q52889674 | Role of optical flow field asymmetry in the perception of heading during linear motion. |
Q35111517 | Role of visual and non-visual cues in constructing a rotation-invariant representation of heading in parietal cortex |
Q47341184 | Self-motion leads to mandatory cue fusion across sensory modalities |
Q34180535 | Self-motion perception in the elderly |
Q36337911 | Self-motion-induced eye movements: effects on visual acuity and navigation |
Q35798588 | Sensorimotor and cognitive factors associated with the age-related increase of visual field dependence: a cross-sectional study |
Q30480126 | Spatial reference frames of visual, vestibular, and multimodal heading signals in the dorsal subdivision of the medial superior temporal area |
Q36739559 | Speed and direction response profiles of neurons in macaque MT and MST show modest constraint line tuning |
Q35709399 | Temporal integration of focus position signal during compensation for pursuit in optic flow |
Q40892353 | Testing the Perrone and Stone (1994) model of heading estimation |
Q48957332 | The analysis of complex motion patterns by form/cue invariant MSTd neurons |
Q33661724 | The contributions of vestibular signals to the representations of space in the posterior parietal cortex |
Q51712380 | The detection of moving objects by moving observers. |
Q50506762 | The effect of monocular depth cues on the detection of moving objects by moving observers. |
Q64080938 | The influence of retinal image motion on the perceptual grouping of temporally asynchronous stimuli |
Q74005815 | The mechanism of interaction between visual flow and eye velocity signals for heading perception |
Q37328284 | The motion/pursuit law for visual depth perception from motion parallax |
Q30494056 | The responses of VIP neurons are sufficiently sensitive to support heading judgments |
Q48348616 | The role of vision in maintaining heading direction: effects of changing gaze and optic flow on human gait |
Q72001044 | Time-to-passage judgments in nonconstant optical flow fields |
Q43757182 | Transducer models of head-centred motion perception |
Q46283045 | Translation speed compensation in the dorsal aspect of the medial superior temporal area. |
Q54045676 | Type of motion in inverted self-motion perception induced by a foreground stimulus. |
Q51405378 | Use of speed cues in the detection of moving objects by moving observers. |
Q48162066 | Using vision to control locomotion: looking where you want to go. |
Q80671134 | Velocity discrimination thresholds for flowfield motions with moving observers |
Q37308963 | Vestibular signals in macaque extrastriate visual cortex are functionally appropriate for heading perception |
Q30477796 | Visual and nonvisual contributions to three-dimensional heading selectivity in the medial superior temporal area |
Q46272977 | Visual control of steering without course information |
Q48468448 | Visual selectivity for heading in monkey area MST. |
Q48604858 | Visual selectivity for heading in the macaque ventral intraparietal area |
Q52177982 | Visual self-motion perception during head turns. |
Q35024557 | Visual-vestibular cue integration for heading perception: applications of optimal cue integration theory |
Q37361230 | Visually guided reaching depends on motion area MT+. |
Q48718937 | Visually perceived eye level and horizontal midline of the body trunk influenced by optic flow |
Q52952178 | Voluntary head movement and allocentric perception of space. |
Q48131692 | Where are you heading? Flexible integration of retinal and extra-retinal cues during self-motion perception |
Q60077239 | Why two eyes are better than one for judgements of heading |
Q60441051 | Why you should look where you are going |
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