When sensory stimuli are encoded in a lossy fashion for efficient transmission, there are necessarily tradeoffs between the represented fidelity of various aspects of the stimuli. In the model of attention presented here, a top-down signal informs the encoder of these tradeoffs. Given the stimulus ensemble and tradeoff requirements, our system learns an optimal encoder. This general model is instantiated in a simple network: an autoencoder with a bottleneck, innervated by a top-down attentional signal, and trained using backpropagation. The modulation of neural activity learned by this model qualitatively matches that measured in animals during visual attention tasks
We present a biologically plausible model of an attentional mechanism for forming position- and scal...
AbstractHuman psychophysics and monkey physiology studies have shown that attention modulates early ...
How does attentional modulation of neural activity enhance performance? Here we use a deep convoluti...
When sensory stimuli are encoded in a lossy fashion for efficient transmission, there are necessaril...
Neuronal activity can be modulated by attention even while the sensory stimulus is held fixed. This ...
Neuronal activity in response to a fixed stimulus has been shown to change as a function of attentio...
AbstractWe propose that the effects of attentional top-down modulations observed in the visual corte...
Attention causes diverse changes to visual neuron responses, including alterations in receptive fiel...
International audienceAttention plays an important role in natural vision. Implementing realistic at...
Attention acts, through cortical feedback pathways, to enhance the response of cells encoding expect...
Although many studies have shown that attention to a stimulus can enhance the responses of individua...
The nervous system integrates past information together with predictions about the future in order t...
When we observe our visual environment, we do not perceive all its components as being equally inter...
Top-down attention has often been separately studied in the contexts of eitheroptimal population cod...
AbstractThe selective tuning model [Artif. Intell. 78 (1995) 507] is a neurobiologically plausible n...
We present a biologically plausible model of an attentional mechanism for forming position- and scal...
AbstractHuman psychophysics and monkey physiology studies have shown that attention modulates early ...
How does attentional modulation of neural activity enhance performance? Here we use a deep convoluti...
When sensory stimuli are encoded in a lossy fashion for efficient transmission, there are necessaril...
Neuronal activity can be modulated by attention even while the sensory stimulus is held fixed. This ...
Neuronal activity in response to a fixed stimulus has been shown to change as a function of attentio...
AbstractWe propose that the effects of attentional top-down modulations observed in the visual corte...
Attention causes diverse changes to visual neuron responses, including alterations in receptive fiel...
International audienceAttention plays an important role in natural vision. Implementing realistic at...
Attention acts, through cortical feedback pathways, to enhance the response of cells encoding expect...
Although many studies have shown that attention to a stimulus can enhance the responses of individua...
The nervous system integrates past information together with predictions about the future in order t...
When we observe our visual environment, we do not perceive all its components as being equally inter...
Top-down attention has often been separately studied in the contexts of eitheroptimal population cod...
AbstractThe selective tuning model [Artif. Intell. 78 (1995) 507] is a neurobiologically plausible n...
We present a biologically plausible model of an attentional mechanism for forming position- and scal...
AbstractHuman psychophysics and monkey physiology studies have shown that attention modulates early ...
How does attentional modulation of neural activity enhance performance? Here we use a deep convoluti...