Add to ORKGEven in the absence of sensory stimulation the brain is spontaneously active. This background “noise” seems to be the dominant cause of the notoriously high trial-to-trial variability of neural recordings. Recent experimental observations have extended our knowledge of trial-to-trial variability and spontaneous activity in several directions: 1. Trial-to-trial variability systematically decreases following the onset of a sensory stimulus or the start of a motor act. 2. Spontaneous activity states in sensory cortex outline the region of evoked sensory responses. 3. Across development, spontaneous activity aligns itself with typical evoked activity patterns. 4. The spontaneous brain activity prior to the presentation of an ambiguous stimulus ...
Cortical networks exhibit intrinsic dynamics that drive coordinated, large-scale fluctuations across...
Cortical networks exhibit intrinsic dynamics that drive coordinated, large-scale fluctuations across...
Behavior is controlled by complex neural networks in which neurons process thousands of inputs. Howe...
<div><p>Even in the absence of sensory stimulation the brain is spontaneously active. This backgroun...
Even in the absence of sensory stimulation the brain is spontaneously active. This background “noise...
The brain is a highly dynamic and variable system: when the same stimulus is presented to the same a...
The brain is a highly dynamic and variable system: when the same stimulus is presented to the same a...
<div><p>Spontaneous activity is commonly observed in a variety of cortical states. Experimental evid...
Animals rely on different decision strategies when faced with ambiguous or uncertain cues. Depending...
Neuronal responses to repeated presentations of identical visual stimuli are variable. The source of...
Neuronal responses to repeated presentations of identical visual stimuli are variable. The source of...
Animals rely on different decision strategies when faced with ambiguous or uncertain cues. Depending...
Cortical networks exhibit intrinsic dynamics that drive coordinated, large-scale fluctuations across...
Animals rely on different decision strategies when faced with ambiguous or uncertain cues. Depending...
Animals rely on different decision strategies when faced with ambiguous or uncertain cues. Depending...
Cortical networks exhibit intrinsic dynamics that drive coordinated, large-scale fluctuations across...
Cortical networks exhibit intrinsic dynamics that drive coordinated, large-scale fluctuations across...
Behavior is controlled by complex neural networks in which neurons process thousands of inputs. Howe...
<div><p>Even in the absence of sensory stimulation the brain is spontaneously active. This backgroun...
Even in the absence of sensory stimulation the brain is spontaneously active. This background “noise...
The brain is a highly dynamic and variable system: when the same stimulus is presented to the same a...
The brain is a highly dynamic and variable system: when the same stimulus is presented to the same a...
<div><p>Spontaneous activity is commonly observed in a variety of cortical states. Experimental evid...
Animals rely on different decision strategies when faced with ambiguous or uncertain cues. Depending...
Neuronal responses to repeated presentations of identical visual stimuli are variable. The source of...
Neuronal responses to repeated presentations of identical visual stimuli are variable. The source of...
Animals rely on different decision strategies when faced with ambiguous or uncertain cues. Depending...
Cortical networks exhibit intrinsic dynamics that drive coordinated, large-scale fluctuations across...
Animals rely on different decision strategies when faced with ambiguous or uncertain cues. Depending...
Animals rely on different decision strategies when faced with ambiguous or uncertain cues. Depending...
Cortical networks exhibit intrinsic dynamics that drive coordinated, large-scale fluctuations across...
Cortical networks exhibit intrinsic dynamics that drive coordinated, large-scale fluctuations across...
Behavior is controlled by complex neural networks in which neurons process thousands of inputs. Howe...