The two sensory systems discussed use similar algorithms for the synthesis of the neuronal selectivity for the stimulus that releases a particular behavior, although the neural circuits, the brain sites involved, and even the species are different. This stimulus selectivity emerges gradually in a neural network organized according to parallel and hierarchical design principles. The parallel channels contain lower order stations with special circuits for the creation of neuronal selectivities for different features of the stimulus. Convergence of the parallel pathways brings these selectivities together at a higher order station for the eventual synthesis of the selectivity for the whole stimulus pattern. The neurons that are selective for t...
Sensory systems have evolved to optimally encode stimuli found in the natural environment. In order ...
When inputs from different sources are correlated, coding them efficiently requires new representati...
Section I Methods Physiological Foundations of Neural Signals Kevin Whittingstall and Nikos K. Logot...
The two sensory systems discussed use similar algorithms for the synthesis of the neuronal selectivi...
While recognizing a face or kicking a ball may seem to be easy tasks for us, they still constitute c...
Animals must both recognize and localize the sensory signals essential for their survival and reprod...
Our sensory systems perform pretty successful and fast in processing the complex scenarios of sensor...
An understanding of learning in complex neural systems requires the knowledge of neuronal connection...
To what extent are sensory responses in the brain compatible with first-order principles? The effici...
To what extent are sensory responses in the brain compatible with first-order principles? The effici...
THESIS 9129An important goal of mathematical neuroscience is to understand the coding principles gov...
The brain faces at least two challenges critical to an animal\u27s survival: to encode sensory stimu...
The ease with which highly developed brains can generate representations of a virtually unlimited di...
A major challenge for cognitive scientists is to deduce and explain the neural mechanisms of the rap...
The magnitude and apparent complexity of the brain's connectivity have left explicit networks largel...
Sensory systems have evolved to optimally encode stimuli found in the natural environment. In order ...
When inputs from different sources are correlated, coding them efficiently requires new representati...
Section I Methods Physiological Foundations of Neural Signals Kevin Whittingstall and Nikos K. Logot...
The two sensory systems discussed use similar algorithms for the synthesis of the neuronal selectivi...
While recognizing a face or kicking a ball may seem to be easy tasks for us, they still constitute c...
Animals must both recognize and localize the sensory signals essential for their survival and reprod...
Our sensory systems perform pretty successful and fast in processing the complex scenarios of sensor...
An understanding of learning in complex neural systems requires the knowledge of neuronal connection...
To what extent are sensory responses in the brain compatible with first-order principles? The effici...
To what extent are sensory responses in the brain compatible with first-order principles? The effici...
THESIS 9129An important goal of mathematical neuroscience is to understand the coding principles gov...
The brain faces at least two challenges critical to an animal\u27s survival: to encode sensory stimu...
The ease with which highly developed brains can generate representations of a virtually unlimited di...
A major challenge for cognitive scientists is to deduce and explain the neural mechanisms of the rap...
The magnitude and apparent complexity of the brain's connectivity have left explicit networks largel...
Sensory systems have evolved to optimally encode stimuli found in the natural environment. In order ...
When inputs from different sources are correlated, coding them efficiently requires new representati...
Section I Methods Physiological Foundations of Neural Signals Kevin Whittingstall and Nikos K. Logot...