Recently, there has been a significant effort to apply behavioural and anatomical studies ofhippocampal place learning in rodents and other animals to the problem of robot localisation and mapping. The stated purpose of these recent experiments is twofold. Firstly, it is hoped that a study of this material will lead to improved algorithms for mobile robotics. Secondly, the behaviour of these new algorithms may be studied to evaluate psychological theories, and aid in the development of new theories. This thesis builds on these experiments by developing a complete localisation and navigational system for a simulated mobile robot. In order to provide a complete and efficient system, several new algorithms were developed. Firstly, a method fo...
Robotic systems can perform well-defined tasks with exquisite precision at high speeds, but they hav...
The paper discusses robot navigation from biological inspiration. The authors sought to build a mode...
spatial learning, spatial localization, place learning, place recognition, navigation, animal naviga...
Recently, there has been a significant effort to apply behavioural and anatomical studies ofhippocam...
Abstract This paper presents a computational model of cognitive maps for navigation, which is implem...
This thesis investigates the implementation of a biologically plausible navigation system on a mobil...
A biologically inspired computational model of rodent repre-sentation?based (locale) navigation is p...
The ability to acquire a representation of the spatial environment and the ability to localize withi...
The rodent navigation system has been the focus of study for over a century. Discoveries made lately...
This thesis describes the use of a hippocampal model as a basis for a complete robot mapping and nav...
This thesis was a step forward in developing new robot learning-based localisation and navigation sy...
The mobile robot ability to navigate autonomously in its environment is very important. Even though ...
The ability to acquire a representation of spatial environment and the ability to localize within it...
Robotics research could benefit by looking for clues in the understanding of natural systems for the...
The paper discusses robot navigation from biological inspiration. The authors sought to build a mode...
Robotic systems can perform well-defined tasks with exquisite precision at high speeds, but they hav...
The paper discusses robot navigation from biological inspiration. The authors sought to build a mode...
spatial learning, spatial localization, place learning, place recognition, navigation, animal naviga...
Recently, there has been a significant effort to apply behavioural and anatomical studies ofhippocam...
Abstract This paper presents a computational model of cognitive maps for navigation, which is implem...
This thesis investigates the implementation of a biologically plausible navigation system on a mobil...
A biologically inspired computational model of rodent repre-sentation?based (locale) navigation is p...
The ability to acquire a representation of the spatial environment and the ability to localize withi...
The rodent navigation system has been the focus of study for over a century. Discoveries made lately...
This thesis describes the use of a hippocampal model as a basis for a complete robot mapping and nav...
This thesis was a step forward in developing new robot learning-based localisation and navigation sy...
The mobile robot ability to navigate autonomously in its environment is very important. Even though ...
The ability to acquire a representation of spatial environment and the ability to localize within it...
Robotics research could benefit by looking for clues in the understanding of natural systems for the...
The paper discusses robot navigation from biological inspiration. The authors sought to build a mode...
Robotic systems can perform well-defined tasks with exquisite precision at high speeds, but they hav...
The paper discusses robot navigation from biological inspiration. The authors sought to build a mode...
spatial learning, spatial localization, place learning, place recognition, navigation, animal naviga...