scholarly article | Q13442814 |
P2093 | author name string | Edward L Keller | |
Robert M McPeek | |||
Jae H Han | |||
P2860 | cites work | Orienting of attention and eye movements | Q29040437 |
Colliding saccades may reveal the secret of their marching orders | Q36605527 | ||
Functional properties of neurons in the monkey superior colliculus: Coupling of neuronal activity and saccade onset | Q39622424 | ||
Paired stimulation of the frontal eye fields and the superior colliculus of the rhesus monkey | Q39698322 | ||
An analysis of curvature in fast and slow human saccades | Q41201181 | ||
Interactions between natural and electrically evoked saccades. I. Differences between sites carrying retinal error and motor error signals in monkey superior colliculus | Q41272643 | ||
Comparison of saccades perturbed by stimulation of the rostral superior colliculus, the caudal superior colliculus, and the omnipause neuron region | Q41708986 | ||
The curvature of oblique saccades | Q43818551 | ||
Superior colliculus activity related to concurrent processing of saccade goals in a visual search task | Q43945325 | ||
Saccade target selection in the superior colliculus during a visual search task | Q46133552 | ||
Dependence on target configuration of express saccade-related activity in the primate superior colliculus | Q46246413 | ||
Target selection for saccadic eye movements: prelude activity in the superior colliculus during a direction-discrimination task | Q46710512 | ||
An estimation and application of the human cortical magnification factor | Q48118853 | ||
Model of the control of saccades by superior colliculus and cerebellum | Q48138174 | ||
Separate signals for target selection and movement specification in the superior colliculus | Q48212723 | ||
Temporal encoding of two-dimensional patterns by single units in primate inferior temporal cortex. I. Response characteristics | Q48233870 | ||
Fixation cells in monkey superior colliculus. II. Reversible activation and deactivation | Q48235364 | ||
Effects of low-frequency stimulation of the superior colliculus on spontaneous and visually guided saccades | Q48322409 | ||
Three-dimensional analysis of strongly curved saccades elicited by double-step stimuli | Q48349025 | ||
Two-dimensional saccade-related population activity in superior colliculus in monkey | Q48410998 | ||
Reversible inactivation of monkey superior colliculus. II. Maps of saccadic deficits | Q48461046 | ||
Movement selection in advance of action in the superior colliculus | Q48530137 | ||
Experimental test of two models for the generation of oblique saccades | Q48556912 | ||
Modulation of neuronal activity by target uncertainty | Q48630612 | ||
Eye movements evoked by collicular stimulation in the alert monkey | Q48718016 | ||
Curved saccade trajectories: voluntary and reflexive saccades curve away from irrelevant distractors | Q48801578 | ||
Spatial localization of saccade targets. I. Compensation for stimulation-induced perturbations in eye position | Q48808720 | ||
Interactions between visually and electrically elicited saccades before and after superior colliculus and frontal eye field ablations in the rhesus monkey | Q48823898 | ||
Minimal synaptic delay in the saccadic output pathway of the superior colliculus studied in awake monkey | Q48872954 | ||
Site and parameters of microstimulation: evidence for independent effects on the properties of saccades evoked from the primate superior colliculus | Q48876591 | ||
Short-term priming, concurrent processing, and saccade curvature during a target selection task in the monkey | Q48952899 | ||
Oblique saccadic eye movements of primates. | Q50802882 | ||
Saccades require focal attention and are facilitated by a short-term memory system. | Q52033727 | ||
Saccade-related activity in monkey superior colliculus. I. Characteristics of burst and buildup cells | Q52052874 | ||
The effect of frontal eye field and superior colliculus lesions on saccadic latencies in the rhesus monkey. | Q52257030 | ||
A method for measuring horizontal and vertical eye movement chronically in the monkey | Q54199508 | ||
P433 | issue | 5 | |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 2577-2590 | |
P577 | publication date | 2003-01-22 | |
P1433 | published in | Journal of Neurophysiology | Q1709863 |
P1476 | title | Competition between saccade goals in the superior colliculus produces saccade curvature | |
P478 | volume | 89 |
Q35585459 | A biologically plausible computational theory for value integration and action selection in decisions with competing alternatives |
Q48213769 | A fresh look at saccadic trajectories and task irrelevant stimuli: Social relevance matters |
Q35994787 | A test of spatial temporal decoding mechanisms in the superior colliculus. |
Q39153459 | Abandoning and modifying one action plan for alternatives |
Q35850995 | Action plan co-optimization reveals the parallel encoding of competing reach movements |
Q48232856 | Alteration of the microsaccadic velocity-amplitude main sequence relationship after visual transients: implications for models of saccade control. |
Q48556493 | An in vitro study of horizontal connections in the intermediate layer of the superior colliculus. |
Q46691406 | Asynchrony between position and motion signals in the saccadic system. |
Q38005684 | Automatic motor activation in the executive control of action |
Q53032377 | Behavioral properties of saccades generated as a choice response. |
Q50804341 | Capture of the gaze does not capture the mind. |
Q38631908 | Common Priority Map for Selection History, Reward and Emotion in the Oculomotor System |
Q53053034 | Comparison of perceptual and motor decisions via confidence judgments and saccade curvature. |
Q48171896 | Competitive integration of visual and preparatory signals in the superior colliculus during saccadic programming. |
Q33781458 | Competitive interactions in sensorimotor cortex: oscillations express separation between alternative movement targets |
Q39420080 | Conditional control in visual selection |
Q43613493 | Control of predictive error correction during a saccadic double-step task |
Q49714073 | Corrective response times in a coordinated eye-head-arm countermanding task. |
Q93037205 | Cross-Modal Integration of Reward Value during Oculomotor Planning |
Q57398586 | Decision-making in sensorimotor control |
Q44934813 | Deficits in saccade target selection after inactivation of superior colliculus |
Q45281049 | Direct evidence for a position input to the smooth pursuit system. |
Q49185767 | Distractor displacements during saccades are reflected in the time-course of saccade curvature |
Q51969432 | Distractor effects on saccade trajectories: a comparison of prosaccades, antisaccades, and memory-guided saccades. |
Q34797384 | Distractor evoked deviations of saccade trajectory are modulated by fixation activity in the superior colliculus: computational and behavioral evidence |
Q48092523 | Distractor modulation of saccade trajectories: spatial separation and symmetry effects |
Q48087740 | Dual-task costs and benefits in anti-saccade performance. |
Q51957632 | Dynamic ensemble coding of saccades in the monkey superior colliculus. |
Q36091771 | Dynamics of saccade target selection: race model analysis of double step and search step saccade production in human and macaque. |
Q51139837 | Effect of previously fixated locations on saccade trajectory during free visual search. |
Q46552960 | Effects of a pretarget distractor on saccade reaction times across space and time in monkeys and humans |
Q42466952 | Effects of local nicotinic activation of the superior colliculus on saccades in monkeys. |
Q41775484 | Evidence that indirect inhibition of saccade initiation improves saccade acuracy |
Q48584588 | Eye cannot see it: the interference of subliminal distractors on saccade metrics |
Q37422257 | Eye-hand coordination during target selection in a pop-out visual search |
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Q48352512 | Frontal eye field contributions to rapid corrective saccades |
Q45089210 | Gaze and arrow distractors influence saccade trajectories similarly |
Q52010206 | Gaze distractors influence saccadic curvature: evidence for the role of the oculomotor system in gaze-cued orienting. |
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Q48129897 | Human frontal eye fields and spatial priming of pop-out |
Q41837574 | Incomplete suppression of distractor-related activity in the frontal eye field results in curved saccades |
Q51923688 | Inhibition of masked primes as revealed by saccade curvature. |
Q52691453 | Integrating Brain and Biomechanical Models-A New Paradigm for Understanding Neuro-muscular Control. |
Q48031006 | Interaction between visual- and goal-related neuronal signals on the trajectories of saccadic eye movements |
Q53047938 | Involuntary inhibition of movement initiation alters oculomotor competition resolution. |
Q48360296 | Is saccade averaging determined by visual processing or movement planning? |
Q48568196 | Lateral interactions in the superior colliculus produce saccade deviation in a neural field model |
Q47818950 | Modulation of motor control in saccadic behaviors by TMS over the posterior parietal cortex. |
Q36425087 | Non-target stimuli in the visual field influence movement preparation in upper-limb reaching |
Q48704968 | Our eyes deviate away from a location where a distractor is expected to appear |
Q49017260 | Parallel specification of competing sensorimotor control policies for alternative action options |
Q49580159 | Perceptual Color Space Representations in the Oculomotor System Are Modulated by Surround Suppression and Biased Selection |
Q35926708 | Perceptual decision processes flexibly adapt to avoid change-of-mind motor costs |
Q48181064 | Performance Monitoring by the Anterior Cingulate Cortex During Saccade Countermanding |
Q45908592 | Predictability of saccadic behaviors is modified by transcranial magnetic stimulation over human posterior parietal cortex. |
Q80546116 | Programming of double-step saccade sequences: modulation by cognitive control |
Q46301527 | Properties of Saccadic Responses in Monkey When Multiple Competing Visual Stimuli Are Present |
Q44551689 | Queuing of concurrent movement plans by basal ganglia. |
Q48307997 | Rapid Automatic Motor Encoding of Competing Reach Options |
Q48197123 | Rapid accumulation of inhibition accounts for saccades curved away from distractors. |
Q101049838 | Rapid spatial oculomotor updating across saccades is malleable |
Q49231025 | Rapid updating of spatial working memory across saccades |
Q37765668 | Recent advances in the study of saccade trajectory deviations |
Q36693459 | Reversal of a distractor effect on saccade target selection after superior colliculus inactivation |
Q50601789 | Reward modulates oculomotor competition between differently valued stimuli. |
Q39102027 | Saccade learning with concurrent cortical and subcortical basal ganglia loops. |
Q51028782 | Saccade trajectory under simultaneous inhibition for two locations. |
Q39359528 | Saccades curve away from previously inhibited locations: evidence for the role of priming in oculomotor competition |
Q57988138 | Saccadic Foveation of a Moving Visual Target in the Rhesus Monkey |
Q48498081 | Saccadic eye movements as an index of perceptual decision-making |
Q48716694 | Saccadic interception of a moving visual target after a spatiotemporal perturbation. |
Q45302522 | Saccadic trajectory in Huntington's disease |
Q47868200 | Salience from multiple feature contrast: Evidence from saccade trajectories. |
Q36096661 | Sensorimotor transformation for visually guided saccades |
Q38771549 | Setting things straight: A comparison of measures of saccade trajectory deviation |
Q36825867 | Simulations of saccade curvature by models that place superior colliculus upstream from the local feedback loop |
Q44441113 | Simultaneous encoding of the direction and orientation of potential targets during reach planning: evidence of multiple competing reach plans |
Q60464973 | Spatial and temporal aspects of oculomotor inhibition as revealed by saccade trajectories |
Q50696558 | Spatial primes produce dissociated inhibitory effects on saccadic latencies and trajectories. |
Q48394743 | Spatiotemporal structure of visual receptive fields in macaque superior colliculus |
Q35601136 | Stop before you saccade: Looking into an artificial peripheral scotoma. |
Q48879908 | Striate cortical lesions affect deliberate decision and control of saccade: implication for blindsight |
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Q36627389 | Target selection for visually guided reaching in macaque |
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Q38493418 | The effect of semantic information on saccade trajectory deviations. |
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Q51959420 | The influence of "blind" distractors on eye movement trajectories in visual hemifield defects. |
Q52052875 | The influence of attending to multiple locations on eye movements. |
Q48330674 | The oculomotor salience of flicker, apparent motion and continuous motion in saccade trajectories |
Q54266551 | The parallel programming of voluntary and reflexive saccades. |
Q51975343 | The relationship between covert and overt attention in endogenous cuing. |
Q38048419 | The site of interference in the saccadic Stroop effect |
Q47436745 | The size and direction of saccadic curvatures during reading |
Q51921530 | The spatial and temporal shape of oculomotor inhibition. |
Q51999109 | The spatial coding of the inhibition evoked by distractors. |
Q83793424 | The spatial impact of visual distractors on saccade latency |
Q47950677 | The superior colliculus and the steering of saccades toward a moving visual target |
Q83009946 | The time course of vertical, horizontal and oblique saccade trajectories: Evidence for greater distractor interference during vertical saccades |
Q36928458 | Time course of motor preparation during visual search with flexible stimulus-response association |
Q53002349 | Time course of oculomotor inhibition revealed by saccade trajectory modulation. |
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Q46229296 | Voluntary control of multisaccade gaze shifts during movement preparation and execution |
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