scholarly article | Q13442814 |
P2093 | author name string | Aditya Murthy | |
Arjun Ramakrishnan | |||
K M Sharika | |||
P2860 | cites work | Neuronal mechanisms for visual stability: progress and problems | Q33350482 |
Spatiotopic coding and remapping in humans | Q33795528 | ||
Predictive activity in macaque frontal eye field neurons during natural scene searching | Q33920781 | ||
Updating of the visual representation in monkey striate and extrastriate cortex during saccades | Q34021579 | ||
An analysis of the saccadic system by means of double step stimuli | Q34053610 | ||
Amplitudes and directions of individual saccades can be adjusted by corollary discharge | Q34099964 | ||
Changes in visual perception at the time of saccades | Q34133672 | ||
Memory-scanning: mental processes revealed by reaction-time experiments | Q34232454 | ||
Cognitive processing in new and practiced discrete keying sequences | Q35157182 | ||
Proactive control of sequential saccades in the human supplementary eye field | Q36747545 | ||
The problem of serial order in behavior: Lashley's legacy. | Q36909991 | ||
Sensory transformations and the use of multiple reference frames for reach planning | Q37358366 | ||
Remapping for visual stability | Q37829535 | ||
Vision and the representation of the surroundings in spatial memory. | Q37829540 | ||
Predictive remapping of attention across eye movements | Q39801310 | ||
Human transsaccadic visual processing: Presaccadic remapping and postsaccadic updating | Q39852613 | ||
Predictive remapping of visual features precedes saccadic eye movements | Q40200980 | ||
Spatial processing in the monkey frontal eye field. I. Predictive visual responses | Q40881710 | ||
Oculomotor localization relies on a damped representation of saccadic eye displacement in human and nonhuman primates | Q41095241 | ||
Interactions between gaze-centered and allocentric representations of reach target location in the presence of spatial updating | Q42917744 | ||
Inactivation of macaque lateral intraparietal area delays initiation of the second saccade predominantly from contralesional eye positions in a double-saccade task | Q43580024 | ||
Control of predictive error correction during a saccadic double-step task | Q43613493 | ||
Further properties of the human saccadic system: Eye movements and correction saccades with and without visual fixation points | Q44071249 | ||
Spatiotopic temporal integration of visual motion across saccadic eye movements. | Q44519475 | ||
What the brain stem tells the frontal cortex. II. Role of the SC-MD-FEF pathway in corollary discharge. | Q44628461 | ||
Preparing sequences of saccades under choice reaction conditions: effects of sequence length and context | Q44849185 | ||
Saccadic eye movements to flashed targets | Q45084878 | ||
The use of egocentric and exocentric location cues in saccadic programming | Q46127135 | ||
Grasping after a delay shifts size-scaling from absolute to relative metrics | Q47226523 | ||
What the brain stem tells the frontal cortex. I. Oculomotor signals sent from superior colliculus to frontal eye field via mediodorsal thalamus. | Q48164831 | ||
Gaze-centered updating of visual space in human parietal cortex. | Q48251578 | ||
Frontal eye field contributions to rapid corrective saccades | Q48352512 | ||
Fixation errors and timing in sequences of memory-guided saccades | Q48355844 | ||
The use of recurrent signals about adaptation for subsequent saccade programming depends on object structure | Q48435099 | ||
The updating of the representation of visual space in parietal cortex by intended eye movements | Q48550550 | ||
Control strategies in directing the hand to moving targets | Q48603970 | ||
Allocentric spatial referencing of neuronal activity in macaque posterior cingulate cortex. | Q48673318 | ||
Reference frames in saccadic targeting | Q48690968 | ||
Gaze-centered spatial updating in delayed reaching even in the presence of landmarks. | Q50738712 | ||
Allocentrically implied target locations are updated in an eye-centred reference frame. | Q50961672 | ||
Spatiotopic visual maps revealed by saccadic adaptation in humans. | Q50998058 | ||
Extraretinal signal metrics in multiple-saccade sequences. | Q51028135 | ||
Cue reliability and a landmark stability heuristic determine relative weighting between egocentric and allocentric visual information in memory-guided reach. | Q51054214 | ||
The proximity of visual landmarks impacts reaching performance. | Q51982290 | ||
The effect of a pictorial illusion on closed-loop and open-loop prehension. | Q52023240 | ||
The effects of landmarks on the performance of delayed and real-time pointing movements. | Q52043472 | ||
Visual memory and motor planning in a natural task. | Q52107087 | ||
Planning sequences of saccades. | Q52135079 | ||
Spatiotopic neural representations develop slowly across saccades | Q60213605 | ||
Perceptual localization of visual stimuli flashed during saccades | Q69970020 | ||
Oculoparalytic illusion: visual-field dependent spatial mislocalizations by humans partially paralyzed with curare | Q70298188 | ||
On the role of extraretinal signals for saccade generation | Q72051998 | ||
Saccade-contingent displacement of the apparent position of visual stimuli flashed on a dimly illuminated structured background | Q72880469 | ||
Concurrent processing of saccades in visual search | Q74071917 | ||
Craniotopic updating of visual space across saccades in the human posterior parietal cortex | Q77884283 | ||
Programming of double-step saccade sequences: modulation by cognitive control | Q80546116 | ||
P433 | issue | 48 | |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 16009-16021 | |
P577 | publication date | 2014-11-01 | |
P1433 | published in | Journal of Neuroscience | Q1709864 |
P1476 | title | Use of exocentric and egocentric representations in the concurrent planning of sequential saccades | |
P478 | volume | 34 |
Search more.