Studies of human and rodent navigation often reveal a remarkable cross-species similarity between the cognitive and neural mechanisms of navigation. Such cross-species resemblance often overshadows some critical differences between how humans and nonhuman animals navigate. In this review, I propose that a navigation system requires both a storage system (i.e., representing spatial information) and a positioning system (i.e., sensing spatial information) to operate. I then argue that the way humans represent spatial information is different from that inferred from the cellular activity observed during rodent navigation. Such difference spans the whole hierarchy of spatial representation, from representing the structure of an environment to t...
A key challenge for animals is recognising locations and navigating between them. These capacities a...
The study of spatial cognition has provided considerable insight into how animals (including humans)...
To interact rapidly and effectively with the environment, the mammalian brain needs a representation...
Studies of human and rodent navigation often reveal a remarkable cross-species similarity between th...
Studies of human and rodent navigation often reveal a remarkable cross-species similarity between th...
How does the brain represent the world and allow spatial navigation? One mechanism is hippocampal pl...
How do we know where we are? Orientation in space is key to our daily existence as we follow familia...
The ability to navigate our environment is a vital skill for numerous species, including humans. How...
Much of our understanding of navigation comes from the study of individual species, often with speci...
Abstract—We describe a computer model that reproduces many observed features of rat navigation behav...
ABSTRACT: It is often assumed that navigation implies the use, by animals, of landmarks indicating t...
Navigation appeared early in the evolution of animals and occurs in all mobile species. The vast arr...
Navigation, the ability to organize behavior adaptively to move from one place to another, appeared ...
Space is continuous. But the communities of researchers that study the cognitive map in non-humans a...
ABSTRACT We present a computational theory of navigation in ro-dents based on interacting representa...
A key challenge for animals is recognising locations and navigating between them. These capacities a...
The study of spatial cognition has provided considerable insight into how animals (including humans)...
To interact rapidly and effectively with the environment, the mammalian brain needs a representation...
Studies of human and rodent navigation often reveal a remarkable cross-species similarity between th...
Studies of human and rodent navigation often reveal a remarkable cross-species similarity between th...
How does the brain represent the world and allow spatial navigation? One mechanism is hippocampal pl...
How do we know where we are? Orientation in space is key to our daily existence as we follow familia...
The ability to navigate our environment is a vital skill for numerous species, including humans. How...
Much of our understanding of navigation comes from the study of individual species, often with speci...
Abstract—We describe a computer model that reproduces many observed features of rat navigation behav...
ABSTRACT: It is often assumed that navigation implies the use, by animals, of landmarks indicating t...
Navigation appeared early in the evolution of animals and occurs in all mobile species. The vast arr...
Navigation, the ability to organize behavior adaptively to move from one place to another, appeared ...
Space is continuous. But the communities of researchers that study the cognitive map in non-humans a...
ABSTRACT We present a computational theory of navigation in ro-dents based on interacting representa...
A key challenge for animals is recognising locations and navigating between them. These capacities a...
The study of spatial cognition has provided considerable insight into how animals (including humans)...
To interact rapidly and effectively with the environment, the mammalian brain needs a representation...