SummarySensory neurons are customarily characterized by one or more linearly weighted receptive fields describing sensitivity in sensory space and time. We show that in auditory cortical and thalamic neurons, the weight of each receptive field element depends on the pattern of sound falling within a local neighborhood surrounding it in time and frequency. Accounting for this change in effective receptive field with spectrotemporal context improves predictions of both cortical and thalamic responses to stationary complex sounds. Although context dependence varies among neurons and across brain areas, there are strong shared qualitative characteristics. In a spectrotemporally rich soundscape, sound elements modulate neuronal responsiveness mo...
The human auditory system displays a robust capacity to adapt to sudden changes in background noise,...
Perception of vocalizations and other behaviorally relevant sounds requires integrating acoustic inf...
The phase of low‐frequency network activity in auditory cortex captures changes in neural excitabil...
SummarySensory neurons are customarily characterized by one or more linearly weighted receptive fiel...
Summary Sensory neurons are customarily characterized by one or more linearly weighted receptive fie...
Cortical sensory neurons are commonly characterized using the receptive field, the linear dependence...
Previous studies have shown that the auditory cortex can enhance the perception of behaviorally impo...
SummaryAttention is essential for navigating complex acoustic scenes, when the listener seeks to ext...
Auditory neurons are often described in terms of their spectrotemporal receptive fields (STRFs). The...
SummaryThe auditory system must represent sounds with a wide range of statistical properties. One im...
The functional organization of the sensory cortex is constructed to process sensory information base...
AbstractOne of the brain's fundamental tasks is to construct and transform representations of an ani...
How do cortical neurons represent the acoustic environment? This question is often addressed by prob...
SummaryCortical receptive fields represent the signal preferences of sensory neurons. Receptive fiel...
The ability of the brain to extract meaningful information from complex sounds is what allows mammal...
The human auditory system displays a robust capacity to adapt to sudden changes in background noise,...
Perception of vocalizations and other behaviorally relevant sounds requires integrating acoustic inf...
The phase of low‐frequency network activity in auditory cortex captures changes in neural excitabil...
SummarySensory neurons are customarily characterized by one or more linearly weighted receptive fiel...
Summary Sensory neurons are customarily characterized by one or more linearly weighted receptive fie...
Cortical sensory neurons are commonly characterized using the receptive field, the linear dependence...
Previous studies have shown that the auditory cortex can enhance the perception of behaviorally impo...
SummaryAttention is essential for navigating complex acoustic scenes, when the listener seeks to ext...
Auditory neurons are often described in terms of their spectrotemporal receptive fields (STRFs). The...
SummaryThe auditory system must represent sounds with a wide range of statistical properties. One im...
The functional organization of the sensory cortex is constructed to process sensory information base...
AbstractOne of the brain's fundamental tasks is to construct and transform representations of an ani...
How do cortical neurons represent the acoustic environment? This question is often addressed by prob...
SummaryCortical receptive fields represent the signal preferences of sensory neurons. Receptive fiel...
The ability of the brain to extract meaningful information from complex sounds is what allows mammal...
The human auditory system displays a robust capacity to adapt to sudden changes in background noise,...
Perception of vocalizations and other behaviorally relevant sounds requires integrating acoustic inf...
The phase of low‐frequency network activity in auditory cortex captures changes in neural excitabil...