How to transform a mixed flow of sensory and motor information into memory state of self-location and to build map representations of the environment are central questions in the navigation research. Studies in neuroscience have shown that place cells in the hippocampus of the rodent brains form dynamic cognitive representations of locations in the environment. We propose a neural-network model called sensory-motor integration network model (SeMINet) to learn cognitive map representations by integrating sensory and motor information while an agent is exploring a virtual environment. This biologically inspired model consists of a deep neural network representing visual features of the environment, a recurrent network of place units encoding ...
To interact rapidly and effectively with the environment, the mammalian brain needs a representation...
To interact rapidly and effectively with the environment, the mammalian brain needs a representation...
ABSTRACT: We present a conceptual framework for the role of the hippocampus and its afferent and eff...
How to transform a mixed flow of sensory and motor information into memory state of self-location an...
Hippocampal place cells and entorhinal grid cells have been hypothesized to be able to form map-like...
Abstract This paper presents a computational model of cognitive maps for navigation, which is implem...
Humans create internal models of an environment (i.e. cognitive maps) through subjective sensorimoto...
This study presents a real-time neural network capable of describing place learning and the dynamics...
Spatial navigation in mammals is based on building a mental representation of their environment-a co...
Spatial navigation depends on the combination of multiple sensory cues from idiothetic and allotheti...
It is a challenge to build robust simultaneous localization and mapping (SLAM) system in dynamical l...
A computational model of the hippocampal function in spatial learning is presented. A spatial repres...
Flexible spatial behavior requires the ability to orchestrate the interaction of multiple parallel p...
Recognising familiar places is a competence required in many engineering applications that interact ...
Recognising familiar places is a competence required in many engineering applications that interact ...
To interact rapidly and effectively with the environment, the mammalian brain needs a representation...
To interact rapidly and effectively with the environment, the mammalian brain needs a representation...
ABSTRACT: We present a conceptual framework for the role of the hippocampus and its afferent and eff...
How to transform a mixed flow of sensory and motor information into memory state of self-location an...
Hippocampal place cells and entorhinal grid cells have been hypothesized to be able to form map-like...
Abstract This paper presents a computational model of cognitive maps for navigation, which is implem...
Humans create internal models of an environment (i.e. cognitive maps) through subjective sensorimoto...
This study presents a real-time neural network capable of describing place learning and the dynamics...
Spatial navigation in mammals is based on building a mental representation of their environment-a co...
Spatial navigation depends on the combination of multiple sensory cues from idiothetic and allotheti...
It is a challenge to build robust simultaneous localization and mapping (SLAM) system in dynamical l...
A computational model of the hippocampal function in spatial learning is presented. A spatial repres...
Flexible spatial behavior requires the ability to orchestrate the interaction of multiple parallel p...
Recognising familiar places is a competence required in many engineering applications that interact ...
Recognising familiar places is a competence required in many engineering applications that interact ...
To interact rapidly and effectively with the environment, the mammalian brain needs a representation...
To interact rapidly and effectively with the environment, the mammalian brain needs a representation...
ABSTRACT: We present a conceptual framework for the role of the hippocampus and its afferent and eff...