The goal of sensory neuroscience is to understand how the brain creates its myriad of representations of the world, and uses these representations to produce perception and behavior. Circuits of neurons in spatially segregated regions of brain tissue have distinct functional specializations, and these regions are connected to form a functional processing hierarchy. Advances in technology for recording neuronal activity from multiple sites in multiple cortical areas mean that we are now able to collect data that reflects how information is transformed within and between connected members of this hierarchy. This advance is an important step in understanding the brain because, after the sensory organs have transduced a physical signal, every p...
The ability to hear and interpret the sounds around us is not only necessary for survival but also e...
How is information distributed across large neuronal populations within a given brain area? Informat...
Distributed representations are the inevitable consequence of devoting large neuronal circuits to a ...
Models and concepts of brain function have always been guided and limited by the available technique...
Although we know a lot about how individual neurons in the brain represent the sensory environment, ...
All brain functions, from seeing and moving to thinking, rely on the interaction of multiple, functi...
As living organisms, we have the capability to explore our environments through different senses, ea...
The brain receives information about the environment from all the sensory modalities, including visi...
Single neurons can often show strong correlations with an animal’s behavioral output, but it is curr...
Panzeri S, Macke JH, Gross J, Kayser C. Neural population coding: combining insights from microscopi...
Brain activity reveals exquisite coordination across spatial scales, from local microcircuits to bra...
Brains are composed of anatomically and functionally distinct regions performing specialized tasks, ...
International audienceSystems neuroscience classically studies how neuronal circuits dynamically int...
How effectively does the brain encode information across large numbers of neurons? Many models predi...
Relating the collective activities of neural populations to external sensory stimuli or to motor out...
The ability to hear and interpret the sounds around us is not only necessary for survival but also e...
How is information distributed across large neuronal populations within a given brain area? Informat...
Distributed representations are the inevitable consequence of devoting large neuronal circuits to a ...
Models and concepts of brain function have always been guided and limited by the available technique...
Although we know a lot about how individual neurons in the brain represent the sensory environment, ...
All brain functions, from seeing and moving to thinking, rely on the interaction of multiple, functi...
As living organisms, we have the capability to explore our environments through different senses, ea...
The brain receives information about the environment from all the sensory modalities, including visi...
Single neurons can often show strong correlations with an animal’s behavioral output, but it is curr...
Panzeri S, Macke JH, Gross J, Kayser C. Neural population coding: combining insights from microscopi...
Brain activity reveals exquisite coordination across spatial scales, from local microcircuits to bra...
Brains are composed of anatomically and functionally distinct regions performing specialized tasks, ...
International audienceSystems neuroscience classically studies how neuronal circuits dynamically int...
How effectively does the brain encode information across large numbers of neurons? Many models predi...
Relating the collective activities of neural populations to external sensory stimuli or to motor out...
The ability to hear and interpret the sounds around us is not only necessary for survival but also e...
How is information distributed across large neuronal populations within a given brain area? Informat...
Distributed representations are the inevitable consequence of devoting large neuronal circuits to a ...