| scholarly article | Q13442814 |
| P50 | author | Motonori Yamaguchi | Q42700643 |
| P2093 | author name string | Jeffrey D Schall | |
| Gordon D Logan | |||
| Thomas J Palmeri | |||
| P2860 | cites work | An integrative theory of prefrontal cortex function | Q22337028 |
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| Are the neural correlates of stopping and not going identical? Quantitative meta-analysis of two response inhibition tasks | Q43451906 | ||
| On the ability to inhibit thought and action: general and special theories of an act of control | Q43994514 | ||
| Does motor programming necessitate response execution? | Q45975968 | ||
| Role of frontal eye fields in countermanding saccades: visual, movement, and fixation activity | Q47615327 | ||
| Perceptual and motor processing stages identified in the activity of macaque frontal eye field neurons during visual search | Q47627656 | ||
| A comparison of macaque behavior and superior colliculus neuronal activity to predictions from models of two-choice decisions | Q47895833 | ||
| Performance Monitoring by the Anterior Cingulate Cortex During Saccade Countermanding | Q48181064 | ||
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| Effects of attention on orientation-tuning functions of single neurons in macaque cortical area V4. | Q48319093 | ||
| Transcranial magnetic stimulation and functional MRI reveal cortical and subcortical interactions during stop-signal response inhibition | Q48335764 | ||
| Primate frontal eye fields. I. Single neurons discharging before saccades | Q48512717 | ||
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| Understanding how the brain changes its mind: microstimulation in the macaque frontal eye field reveals how saccade plans are changed. | Q48593489 | ||
| Neuronal activity related to visually guided saccades in the frontal eye fields of rhesus monkeys: comparison with supplementary eye fields | Q48682836 | ||
| In search of the point of no return: the control of response processes | Q49123878 | ||
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| Controlled movement processing: evidence for a common inhibitory control of finger, wrist, and arm movements. | Q51787434 | ||
| The representation of instructions operates like a prepared reflex: flanker compatibility effects found in first trial following S-R instructions. | Q51939423 | ||
| Top-down control over biased competition during covert spatial orienting. | Q52107236 | ||
| Horse-race model simulations of the stop-signal procedure. | Q52110327 | ||
| Executive control of visual attention in dual-task situations. | Q52134771 | ||
| Countermanding saccades in humans. | Q52174430 | ||
| Canceling Planned Action: An fMRI Study of Countermanding Saccades | Q57830330 | ||
| The time course of perceptual choice: The leaky, competing accumulator model | Q59410689 | ||
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| Strategies and mechanisms in nonselective and selective inhibitory motor control | Q72334761 | ||
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| Common inhibitory prefrontal activation during inhibition of hand and foot responses | Q82484069 | ||
| P433 | issue | 2 | |
| P304 | page(s) | 115-147 | |
| P577 | publication date | 2015-02-23 | |
| P1433 | published in | Psychological Review | Q7256370 |
| P1476 | title | Inhibitory control in mind and brain 2.0: blocked-input models of saccadic countermanding | |
| P478 | volume | 122 |
| Q39153500 | A Pause-then-Cancel model of stopping: evidence from basal ganglia neurophysiology |
| Q64133849 | A consensus guide to capturing the ability to inhibit actions and impulsive behaviors in the stop-signal task |
| Q39721246 | A generative joint model for spike trains and saccades during perceptual decision-making |
| Q50090251 | A model-based quantification of action control deficits in Parkinson's disease |
| Q48588782 | A proactive task set influences how response inhibition is implemented in the basal ganglia |
| Q38674537 | Atrophic degeneration of cerebellum impairs both the reactive and the proactive control of movement in the stop signal paradigm. |
| Q39153464 | Behavioural and computational varieties of response inhibition in eye movements |
| Q92774910 | Countermanding Perceptual Decision-Making |
| Q28602820 | Evidence for capacity sharing when stopping |
| Q47373751 | Go-activation endures following the presentation of a stop-signal: evidence from startle. |
| Q40814085 | Homing in on consciousness in the nervous system: An action-based synthesis |
| Q47104990 | Large-scale functional neural network correlates of response inhibition: an fMRI meta-analysis |
| Q47103160 | Model-based functional neuroimaging using dynamic neural fields: An integrative cognitive neuroscience approach |
| Q39153448 | Models of inhibitory control |
| Q46133377 | Passive frame theory: A new synthesis |
| Q28600996 | Proactive inhibitory control: A general biasing account |
| Q47893641 | RELATING ACCUMULATOR MODEL PARAMETERS AND NEURAL DYNAMICS. |
| Q28603787 | Should I stop or should I go? The role of associations and expectancies |
| Q92672883 | Slow and steady? Strategic adjustments in response caution are moderately reliable and correlate across tasks |
| Q30844967 | Speeded saccadic and manual visuo-motor decisions: Distinct processes but same principles |
| Q90422700 | Temporal cascade of frontal, motor and muscle processes underlying human action-stopping |
| Q38867796 | Testing the validity of conflict drift-diffusion models for use in estimating cognitive processes: A parameter-recovery study |
| Q53619971 | The Temporal Dynamics of Response Inhibition and their Modulation by Cognitive Control. |
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| Q38293715 | Using Decision Models to Enhance Investigations of Individual Differences in Cognitive Neuroscience |
| Q58700408 | Visual salience of the stop signal affects the neuronal dynamics of controlled inhibition |
| Q48237238 | Visual salience of the stop-signal affects movement suppression process. |
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