How do our brains make sense of a complex and unpredictable world? In this talk, I will discuss a physicist's approach to the neural topography of information processing in the brain. First I will review the brain's architecture, and how neural circuits map out the sensory and cognitive worlds. Then I will describe how highly complex sensory and cognitive tasks are carried out by the cooperative action of many specialized neurons and circuits, each of which has a simple function. I will illustrate my remarks with one sensory example and one cognitive example. For the sensory examples, I will consider the sense of smell ("olfaction"), whereby humans and other animals distinguish vast arrays of odor mixtures using very limited neural resource...
neural systems are known to encode self-location in the brain: place cells in the hippocampus encode...
This paper makes two self-confessedly ambitious proposals. One is a theory of mind and world with an...
The goal of sensory neuroscience is to understand how the brain creates its myriad of representation...
2015-03-09How are concepts represented in the brain? When we hear the ringing of a bell, or watch a ...
Our brain is functionally organized in \(\textit {topographic structure}\): typically, nerve cells (...
The aim of this tutorial is to document a novel approach to brain function, in which the key to unde...
A major challenge for cognitive scientists is to deduce and explain the neural mechanisms of the rap...
When a person glimpses the face of a famous actor, sniffs a favorite food or hears the voice of a fr...
Humans have a remarkable capacity for generalizing experiences to novel situations. In a brain netwo...
Caltech biologists are beginning to find out what goes on in our brains when we see something move
CONSIDERING THAT THE BRAIN has a hundred billion nerve cells, it is remarkable how much can be learn...
Most accounts of human cognitive architectures have focused on computational accounts of cognition w...
The human brain integrates diverse cognitive processes into a coherent whole, shifting fluidly as a ...
Our brains are continuously confronted with the problem of how to understand the sensory signals wit...
Abstract: Recent "connectionist " models provide a new explanatory alternative to the digi...
neural systems are known to encode self-location in the brain: place cells in the hippocampus encode...
This paper makes two self-confessedly ambitious proposals. One is a theory of mind and world with an...
The goal of sensory neuroscience is to understand how the brain creates its myriad of representation...
2015-03-09How are concepts represented in the brain? When we hear the ringing of a bell, or watch a ...
Our brain is functionally organized in \(\textit {topographic structure}\): typically, nerve cells (...
The aim of this tutorial is to document a novel approach to brain function, in which the key to unde...
A major challenge for cognitive scientists is to deduce and explain the neural mechanisms of the rap...
When a person glimpses the face of a famous actor, sniffs a favorite food or hears the voice of a fr...
Humans have a remarkable capacity for generalizing experiences to novel situations. In a brain netwo...
Caltech biologists are beginning to find out what goes on in our brains when we see something move
CONSIDERING THAT THE BRAIN has a hundred billion nerve cells, it is remarkable how much can be learn...
Most accounts of human cognitive architectures have focused on computational accounts of cognition w...
The human brain integrates diverse cognitive processes into a coherent whole, shifting fluidly as a ...
Our brains are continuously confronted with the problem of how to understand the sensory signals wit...
Abstract: Recent "connectionist " models provide a new explanatory alternative to the digi...
neural systems are known to encode self-location in the brain: place cells in the hippocampus encode...
This paper makes two self-confessedly ambitious proposals. One is a theory of mind and world with an...
The goal of sensory neuroscience is to understand how the brain creates its myriad of representation...