Adaptation can optimize information processing by allowing the visual system to always adjust to the environment. However, only a few studies have investigated how the visual system makes adjustments to repeatedly occurring changes in the input, still less about the related neural mechanism. Our previous study found that contrast adaptation attenuated after multiple daily sessions of repeated adaptation, which was explained by the habituation of either the adapter's effective strength or the adaptation mechanisms. To examine the former hypothesis, in the present study we used the frequency tagging technique to measure the adapter-elicited steady-state visual evoked potential (SSVEP) amplitudes. Participants repeatedly adapted to the sam...
Visual perception is the primary means by which humans recognize and interpret their surrounding env...
Neural and sensory systems adapt to prolonged stimulation to allow signaling across broader input ra...
Perceptual learning, the improved sensitivity via repetitive practice, is a universal phenomenon in ...
Our sensory system adjusts its function driven by both shorter-term (e.g. adaptation) and longerterm...
SummarySensory systems continuously adjust their function to match changes in the environment. Such ...
Sensory systems continuously adjust their function to match changes in the environment. Such adaptat...
Sensory systems continuously adjust their function to match changes in the environment. Such adaptat...
Changes to the visual environment can happen at many timescales, from very transient to semi-permane...
Prolonged exposure to a high contrast stimulus reduces the neural sensitivity to subsequent similar ...
Visual neurons persistently alter their operating properties in response to changes in the statistic...
Visual coding is a highly dynamic process and continuously adapting to the current viewing context. ...
Visual contrast adaptation decreases contrast sensitivity in visual detection. It has been suggested...
How does prolonged reduction in retinal-image contrast affect visual-contrast coding? Recent evidenc...
The ability of the visual system to rapidly adjust to changing environmental conditions is one of it...
AbstractThe aim of this study was to determine the influence of temporal frequency of temporal contr...
Visual perception is the primary means by which humans recognize and interpret their surrounding env...
Neural and sensory systems adapt to prolonged stimulation to allow signaling across broader input ra...
Perceptual learning, the improved sensitivity via repetitive practice, is a universal phenomenon in ...
Our sensory system adjusts its function driven by both shorter-term (e.g. adaptation) and longerterm...
SummarySensory systems continuously adjust their function to match changes in the environment. Such ...
Sensory systems continuously adjust their function to match changes in the environment. Such adaptat...
Sensory systems continuously adjust their function to match changes in the environment. Such adaptat...
Changes to the visual environment can happen at many timescales, from very transient to semi-permane...
Prolonged exposure to a high contrast stimulus reduces the neural sensitivity to subsequent similar ...
Visual neurons persistently alter their operating properties in response to changes in the statistic...
Visual coding is a highly dynamic process and continuously adapting to the current viewing context. ...
Visual contrast adaptation decreases contrast sensitivity in visual detection. It has been suggested...
How does prolonged reduction in retinal-image contrast affect visual-contrast coding? Recent evidenc...
The ability of the visual system to rapidly adjust to changing environmental conditions is one of it...
AbstractThe aim of this study was to determine the influence of temporal frequency of temporal contr...
Visual perception is the primary means by which humans recognize and interpret their surrounding env...
Neural and sensory systems adapt to prolonged stimulation to allow signaling across broader input ra...
Perceptual learning, the improved sensitivity via repetitive practice, is a universal phenomenon in ...