Recent studies of the olfactory bulb (vertebrates) and antennal lobe (insects) have elucidated how odor information is represented by the identity, synchronization, slow temporal dynamics and position of active neurons in an ensemble. Odor representations are dynamically reorganized both during the course of a stimulus and with experience. These results provide new insights into the logic of odor representations and dynamical network computations
Steady odor streams are typically encoded as robust spatiotemporal spike trains by olfactory network...
The brain faces many complex problems when dealing with odorant signals. Odours are multidimensional...
How is sensory information represented in the brain? A long-standing debate in neural coding is whet...
Recent studies of the olfactory bulb (vertebrates) and antennal lobe (insects) have elucidated how o...
Although smells are some of the most evocative and emotionally charged sensory inputs known to us, w...
We examine early olfactory processing in the vertebrate and insect olfactory systems, using a comput...
The responses of projection neurons in the antennal lobe of the locust brain (the functional analog ...
The responses of projection neurons in the antennal lobe of the locust brain (the functional analog ...
SummaryNeural firing discharges are often temporally patterned, but it is often ambiguous as to whet...
Neural firing discharges are often temporally patterned, but it is often ambiguous as to whether the...
Knowledge about the molecular organization principles of the sense of smell in different species has...
In the insect olfactory system, oscillatory synchronization is functionally relevant and reflects th...
In the insect olfactory system, oscillatory synchronization is functionally relevant and reflects th...
Due to the highly efficient olfactory code, olfactory sensory systems are able to reliably encode en...
Odorants are represented as spatiotemporal patterns of spikes in neurons of the antennal lobe (AL; i...
Steady odor streams are typically encoded as robust spatiotemporal spike trains by olfactory network...
The brain faces many complex problems when dealing with odorant signals. Odours are multidimensional...
How is sensory information represented in the brain? A long-standing debate in neural coding is whet...
Recent studies of the olfactory bulb (vertebrates) and antennal lobe (insects) have elucidated how o...
Although smells are some of the most evocative and emotionally charged sensory inputs known to us, w...
We examine early olfactory processing in the vertebrate and insect olfactory systems, using a comput...
The responses of projection neurons in the antennal lobe of the locust brain (the functional analog ...
The responses of projection neurons in the antennal lobe of the locust brain (the functional analog ...
SummaryNeural firing discharges are often temporally patterned, but it is often ambiguous as to whet...
Neural firing discharges are often temporally patterned, but it is often ambiguous as to whether the...
Knowledge about the molecular organization principles of the sense of smell in different species has...
In the insect olfactory system, oscillatory synchronization is functionally relevant and reflects th...
In the insect olfactory system, oscillatory synchronization is functionally relevant and reflects th...
Due to the highly efficient olfactory code, olfactory sensory systems are able to reliably encode en...
Odorants are represented as spatiotemporal patterns of spikes in neurons of the antennal lobe (AL; i...
Steady odor streams are typically encoded as robust spatiotemporal spike trains by olfactory network...
The brain faces many complex problems when dealing with odorant signals. Odours are multidimensional...
How is sensory information represented in the brain? A long-standing debate in neural coding is whet...
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