review article | Q7318358 |
scholarly article | Q13442814 |
P50 | author | Andrew Glennerster | Q92994756 |
P2093 | author name string | Andrew Glennerster | |
P2860 | cites work | A theory of cerebellar cortex | Q24539174 |
Using Grid Cells for Navigation | Q26801522 | ||
Microstructure of a spatial map in the entorhinal cortex | Q28257459 | ||
Remembering the past and imagining the future: a neural model of spatial memory and imagery | Q28302192 | ||
Bundle Adjustment — A Modern Synthesis | Q30052725 | ||
Path integration in desert ants, Cataglyphis fortis | Q33633245 | ||
A computational perspective on the neural basis of multisensory spatial representations | Q34147442 | ||
A sensorimotor account of vision and visual consciousness. | Q34150234 | ||
A review of the hippocampal place cells | Q34197104 | ||
Flexible, task-dependent use of sensory feedback to control hand movements | Q34618309 | ||
Is the cerebellum a smith predictor? | Q35064626 | ||
The posterior parietal cortex: sensorimotor interface for the planning and online control of visually guided movements | Q36318667 | ||
Navigating from hippocampus to parietal cortex | Q36937013 | ||
The roles of vision and eye movements in the control of activities of daily living | Q73647479 | ||
Range and mechanism of encoding of horizontal disparity in macaque V1 | Q77471347 | ||
Online control of the direction of rapid reaching movements | Q79750027 | ||
Visual feedback control of hand movements | Q79851483 | ||
The timing of natural prehension movements | Q80106945 | ||
Spatiotopic transfer of visual-form adaptation across saccadic eye movements | Q81328728 | ||
Epitomic location recognition | Q84734870 | ||
Keeping the world at hand: rapid visuomotor processing for hand-object interactions. | Q38004842 | ||
Independence of landmark and self-motion-guided navigation: a different role for grid cells. | Q38173652 | ||
What do grid cells contribute to place cell firing? | Q38184137 | ||
Wormholes in virtual space: From cognitive maps to cognitive graphs. | Q38747108 | ||
Grid cells and theta as oscillatory interference: theory and predictions | Q38750183 | ||
Representation and recognition of the spatial organization of three-dimensional shapes | Q39183355 | ||
A computational theory of human stereo vision | Q39259289 | ||
Disparity with respect to a local reference plane as a dominant cue for stereoscopic depth relief | Q39344513 | ||
Sensitivity to depth relief on slanted surfaces | Q39376699 | ||
Fixation could simplify, not complicate, the interpretation of retinal flow | Q39421054 | ||
Affine structure from motion | Q39511218 | ||
Optic flow | Q39790198 | ||
Neuronal computations underlying the firing of place cells and their role in navigation | Q40954798 | ||
Multimodal representation of space in the posterior parietal cortex and its use in planning movements | Q41369764 | ||
The perception of depth in simple figures | Q41579500 | ||
Visual stability-what is the problem? | Q41583650 | ||
Action-oriented spatial reference frames in cortex | Q41698574 | ||
A demonstration of 'broken' visual space | Q42562499 | ||
The reference frame of the motion aftereffect is retinotopic | Q43275878 | ||
View-based navigation in insects: how wood ants (Formica rufa L.) look at and are guided by extended landmarks. | Q43532709 | ||
Evidence for surface-based processing of binocular disparity | Q43996516 | ||
A back-propagation programmed network that simulates response properties of a subset of posterior parietal neurons | Q44145641 | ||
Gaze modulation of visual aftereffects | Q44326793 | ||
Large-scale visual frontoparallels under full-cue conditions | Q47692741 | ||
Gaze-centered remapping of remembered visual space in an open-loop pointing task. | Q48514087 | ||
Spatial invariance of visual receptive fields in parietal cortex neurons | Q48539975 | ||
How baseball outfielders determine where to run to catch fly balls | Q49136423 | ||
Active gaze, visual look-ahead, and locomotor control. | Q50631504 | ||
Illusions can warp visual space. | Q51772270 | ||
The contribution of peripheral and central vision in the control of movement amplitude. | Q51943666 | ||
Navigation and acquisition of spatial knowledge in a virtual maze. | Q52185161 | ||
The role of binocular vision in prehension: a kinematic analysis. | Q52230533 | ||
Stereoscopic depth constancy depends on the subject's task. | Q52292156 | ||
Theory of edge detection. | Q52765248 | ||
A theory of cerebellar function | Q54057287 | ||
Spatiotopic perceptual maps in humans: evidence from motion adaptation. | Q55220879 | ||
Theory of Edge Detection | Q56032004 | ||
FAB-MAP: Probabilistic Localization and Mapping in the Space of Appearance | Q56430687 | ||
Plummeting gannets: a paradigm of ecological optics | Q59067263 | ||
Scanning from coarse to fine spatial scales in the human visual system after the onset of a stimulus | Q68540248 | ||
The resolution of ambiguous stereoscopic matches by interpolation | Q69006018 | ||
After-effects of movement contingent on direction of gaze | Q69521778 | ||
A theory of the primitive spatial code in human vision | Q69790694 | ||
Systematic distortion of perceived three-dimensional structure from motion and binocular stereopsis | Q72334770 | ||
From eye movements to actions: how batsmen hit the ball | Q73252692 | ||
The visual control of reaching and grasping: binocular disparity and motion parallax | Q73422772 | ||
P433 | issue | 1697 | |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 20150265 | |
P577 | publication date | 2016-06-19 | |
P1433 | published in | Philosophical Transactions of the Royal Society B | Q2153239 |
P1476 | title | A moving observer in a three-dimensional world | |
P478 | volume | 371 |
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