It is well-known that neural responses in particular brain regions are spatially organized, but no general principles have been developed that relate the structure of a brain map to the nature of the associated computation. On parallel computers, maps of a sort quite similar to brain maps arise when a computation is distributed across multiple processors. In this paper we will discuss the relationship between maps and computations on these computers and suggest how similar considerations might also apply to maps in the brain
Ritter H, Martinetz T, Schulten K. Neural Computation and Self-Organizing Maps. An Introduction. Rea...
Neural algorithmic reasoners are parallel processors. Teaching them sequential algorithms contradict...
The simulation of brain areas (e.g. the visual cortex), comprising huge networks of integrate & ...
It is well-known that neural responses in particular brain regions are spatially organized, but no ...
It is well-known that neural responses in particular brain regions are spatially organized, but no g...
The cerebral cortex is a rich and diverse structure that is the basis of intelligent behavior. One o...
It has been long proposed that the brain should perform computation efficiently to increase the fitn...
It has been long proposed that the brain should perform computation efficiently to increase the fitn...
Simulations of neural systems on sequential computers are computationally expensive. For example, a ...
Simulation is a third pillar next to experiment and theory in the study of complex dynamic systems s...
Simulation is a third pillar next to experiment and theory in the study of complex dynamic systems s...
Computational systems are useful in neuroscience in many ways. For instance, they may be used to con...
When human psychological performance is viewed in terms of cognitive modules, our species displays r...
When human psychological performance is viewed in terms of cognitive modules, our species displays r...
[Abstract] Background: The human brain is the most complex system in the known universe, it is there...
Ritter H, Martinetz T, Schulten K. Neural Computation and Self-Organizing Maps. An Introduction. Rea...
Neural algorithmic reasoners are parallel processors. Teaching them sequential algorithms contradict...
The simulation of brain areas (e.g. the visual cortex), comprising huge networks of integrate & ...
It is well-known that neural responses in particular brain regions are spatially organized, but no ...
It is well-known that neural responses in particular brain regions are spatially organized, but no g...
The cerebral cortex is a rich and diverse structure that is the basis of intelligent behavior. One o...
It has been long proposed that the brain should perform computation efficiently to increase the fitn...
It has been long proposed that the brain should perform computation efficiently to increase the fitn...
Simulations of neural systems on sequential computers are computationally expensive. For example, a ...
Simulation is a third pillar next to experiment and theory in the study of complex dynamic systems s...
Simulation is a third pillar next to experiment and theory in the study of complex dynamic systems s...
Computational systems are useful in neuroscience in many ways. For instance, they may be used to con...
When human psychological performance is viewed in terms of cognitive modules, our species displays r...
When human psychological performance is viewed in terms of cognitive modules, our species displays r...
[Abstract] Background: The human brain is the most complex system in the known universe, it is there...
Ritter H, Martinetz T, Schulten K. Neural Computation and Self-Organizing Maps. An Introduction. Rea...
Neural algorithmic reasoners are parallel processors. Teaching them sequential algorithms contradict...
The simulation of brain areas (e.g. the visual cortex), comprising huge networks of integrate & ...