Learning how neural activity in the brain leads to the behavior we exhibit is one of the fundamental questions in Neuroscience. In this dissertation, several lines of work are presented to that use principles of neural coding to understand behavior. In one line of work, we formulate the efficient coding hypothesis in a non-traditional manner in order to test human perceptual sensitivity to complex visual textures. We find a striking agreement between how variable a particular texture signal is and how sensitive humans are to its presence. This reveals that the efficient coding hypothesis is still a guiding principle for neural organization beyond the sensory periphery, and that the nature of cortical constraints differs from the peripheral ...
Through our senses, the brain receives an enormous amount of information. This information needs to ...
Understanding the mechanism by which the brain transforms simple sensory inputs into rich perceptual...
The question of how the collective activity of neural populations in the brain gives rise to complex...
Learning how neural activity in the brain leads to the behavior we exhibit is one of the fundamental...
Learning how neural activity in the brain leads to the behavior we exhibit is one of the fundamental...
The brain is never truly silent – up to 80% of its energy budget is expended during ongoing activity...
One of the fundamental questions in neuroscience is to understand how encoding of sensory inputs is ...
Cognitive behaviors originate in the responses of neuronal populations. We have a reasonable underst...
How do circuits in the mammalian cerebral cortex encode properties of the sensory environment in a ...
Brains are composed of anatomically and functionally distinct regions performing specialized tasks, ...
Computational neuroscience is in the midst of constructing a new framework for understanding the bra...
Analyses of neuronal activity have revealed that various types of neurons, both at the single-unit a...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Brain and Cognitive Sciences, 2011....
Computational neuroscience is in the midst of constructing a new framework for understanding the bra...
Behavior relies on the distributed and coordinated activity of neural populations. Population activi...
Through our senses, the brain receives an enormous amount of information. This information needs to ...
Understanding the mechanism by which the brain transforms simple sensory inputs into rich perceptual...
The question of how the collective activity of neural populations in the brain gives rise to complex...
Learning how neural activity in the brain leads to the behavior we exhibit is one of the fundamental...
Learning how neural activity in the brain leads to the behavior we exhibit is one of the fundamental...
The brain is never truly silent – up to 80% of its energy budget is expended during ongoing activity...
One of the fundamental questions in neuroscience is to understand how encoding of sensory inputs is ...
Cognitive behaviors originate in the responses of neuronal populations. We have a reasonable underst...
How do circuits in the mammalian cerebral cortex encode properties of the sensory environment in a ...
Brains are composed of anatomically and functionally distinct regions performing specialized tasks, ...
Computational neuroscience is in the midst of constructing a new framework for understanding the bra...
Analyses of neuronal activity have revealed that various types of neurons, both at the single-unit a...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Brain and Cognitive Sciences, 2011....
Computational neuroscience is in the midst of constructing a new framework for understanding the bra...
Behavior relies on the distributed and coordinated activity of neural populations. Population activi...
Through our senses, the brain receives an enormous amount of information. This information needs to ...
Understanding the mechanism by which the brain transforms simple sensory inputs into rich perceptual...
The question of how the collective activity of neural populations in the brain gives rise to complex...