In this paper we use single-trial analysis of electroencephalography (EEG) to ascertain the cortical origins of response time variability in a rapid serial visual presentation (RSVP) task. We extract spatial components that maximally discriminate between target and distractor stimulus conditions over specific time windows between stimulus onset and the time of a motor response. We then compute the peak latency of this differential activity on a trial-by-trial basis, and correlate this with response time. We find, for our nine participants, that the majority of the latency is introduced by component activity which begins far-frontally 200 ms prior to the response and proceeds to become parietally distributed near the time of response. This a...
Variations in reaction time are a ubiquitous characteristic of human behavior. Extensively documente...
The difficulty of visual recognition stems from the need to achieve high selectivity while maintaini...
<p>(A) Cortical response to visual stimulation at 48 ms after stimulus onset. Responses in the V1, L...
When engaged in a repetitive task our performance fluctuates from trial-to-trial. In particular, int...
Abstract — The timing of a behavioral response, such as a button press in reaction to a visual stimu...
Most visual stimuli we experience on a day-to-day basis are continuous sequences, with spatial struc...
Objective: The question of how temporal information is processed by the brain is still a matter of d...
The selection of behaviorally relevant information from cluttered visual scenes (often referred to a...
Sensory responses of the brain are known to be highly variable, but the origin and functional releva...
Sensory responses of the brain are known to be highly variable, but the origin and functional releva...
Most visual stimuli we experience on a day-to-day basis are continuous sequences, with spatial struc...
Human reaction times during sensory-motor tasks vary considerably. To begin to understand how this v...
Variability in neuronal response latency has been typically considered caused by random noise. Previ...
Most visual stimuli we experience on a day-to-day basis are continuous sequences, with spatial struc...
SummaryThe difficulty of visual recognition stems from the need to achieve high selectivity while ma...
Variations in reaction time are a ubiquitous characteristic of human behavior. Extensively documente...
The difficulty of visual recognition stems from the need to achieve high selectivity while maintaini...
<p>(A) Cortical response to visual stimulation at 48 ms after stimulus onset. Responses in the V1, L...
When engaged in a repetitive task our performance fluctuates from trial-to-trial. In particular, int...
Abstract — The timing of a behavioral response, such as a button press in reaction to a visual stimu...
Most visual stimuli we experience on a day-to-day basis are continuous sequences, with spatial struc...
Objective: The question of how temporal information is processed by the brain is still a matter of d...
The selection of behaviorally relevant information from cluttered visual scenes (often referred to a...
Sensory responses of the brain are known to be highly variable, but the origin and functional releva...
Sensory responses of the brain are known to be highly variable, but the origin and functional releva...
Most visual stimuli we experience on a day-to-day basis are continuous sequences, with spatial struc...
Human reaction times during sensory-motor tasks vary considerably. To begin to understand how this v...
Variability in neuronal response latency has been typically considered caused by random noise. Previ...
Most visual stimuli we experience on a day-to-day basis are continuous sequences, with spatial struc...
SummaryThe difficulty of visual recognition stems from the need to achieve high selectivity while ma...
Variations in reaction time are a ubiquitous characteristic of human behavior. Extensively documente...
The difficulty of visual recognition stems from the need to achieve high selectivity while maintaini...
<p>(A) Cortical response to visual stimulation at 48 ms after stimulus onset. Responses in the V1, L...