Adaptive adjustments of strategies help optimize behavior in a dynamic and uncertain world. Previous studies in the countermanding (or stop-signal) paradigm have detailed how reaction times (RTs) change with trial sequence, demonstrating adaptive control of movement generation. Comparatively little is known about the adaptive control of movement cancellation in the countermanding task, mainly because movement cancellation implies the absence of an outcome and estimates of movement cancellation require hundreds of trials. Here, we exploit a within-trial proxy of movement cancellation based on recordings of neck muscle activity while human subjects attempted to cancel large eye-head gaze shifts. On a subset of successfully cancelled trials wh...
The ability to not execute (i.e. to inhibit) actions is important for behavioural flexibility and fr...
Whereas inhibitory control of single effector movements has been widely studied, the control of coor...
To what extent do humans exert control over low-level components of the oculomotor system? Previous ...
Movement inhibition is an aspect of executive control that can be studied using the countermanding p...
Background and Aims: Adaptive behavior depends on the ability to voluntarily suppress context-inappr...
AbstractThe stop-signal or countermanding task probes the ability to control action by requiring sub...
The stop-signal or countermanding task probes the ability to control action by requiring subjects to...
The voluntary control of movement is often tested by using the countermanding, or stop-signal task t...
AbstractWe used a countermanding paradigm to investigate the relationship between conflicting cues f...
Motor adaptation due to task practice implies a gradual shift from deliberate control of behavior to...
Background and Aims: Adaptive behavior depends on the ability to voluntarily suppress context-inapp...
Humans and macaque monkeys adjust their response time adaptively in stop-signal (countermanding) tas...
Humans and macaque monkeys adjust their response time adaptively in stop-signal (countermanding) tas...
UNLABELLED: The appearance of a novel visual stimulus generates a rapid stimulus-locked response (SL...
Countermanding behavior has long been seen as a cornerstone of executive control—the human ability t...
The ability to not execute (i.e. to inhibit) actions is important for behavioural flexibility and fr...
Whereas inhibitory control of single effector movements has been widely studied, the control of coor...
To what extent do humans exert control over low-level components of the oculomotor system? Previous ...
Movement inhibition is an aspect of executive control that can be studied using the countermanding p...
Background and Aims: Adaptive behavior depends on the ability to voluntarily suppress context-inappr...
AbstractThe stop-signal or countermanding task probes the ability to control action by requiring sub...
The stop-signal or countermanding task probes the ability to control action by requiring subjects to...
The voluntary control of movement is often tested by using the countermanding, or stop-signal task t...
AbstractWe used a countermanding paradigm to investigate the relationship between conflicting cues f...
Motor adaptation due to task practice implies a gradual shift from deliberate control of behavior to...
Background and Aims: Adaptive behavior depends on the ability to voluntarily suppress context-inapp...
Humans and macaque monkeys adjust their response time adaptively in stop-signal (countermanding) tas...
Humans and macaque monkeys adjust their response time adaptively in stop-signal (countermanding) tas...
UNLABELLED: The appearance of a novel visual stimulus generates a rapid stimulus-locked response (SL...
Countermanding behavior has long been seen as a cornerstone of executive control—the human ability t...
The ability to not execute (i.e. to inhibit) actions is important for behavioural flexibility and fr...
Whereas inhibitory control of single effector movements has been widely studied, the control of coor...
To what extent do humans exert control over low-level components of the oculomotor system? Previous ...