To navigate successfully in a novel environment a robot needs to be able to Simultaneously Localize And Map (SLAM) its surroundings. The most successful solutions to this problem so far have involved probabilistic algorithms, but there has been much promising work involving systems based on the workings of part of the rodent brain known as the hippocampus. In this paper we present a biologically plausible system called RatSLAM that uses competitive attractor networks to carry out SLAM in a probabilistic manner. The system can effectively perform parameter self-calibration and SLAM in one-dimension. Tests in two dimensional environments revealed the inability of the RatSLAM system to maintain multiple pose hypotheses in the face of ambiguous...
The rodent navigation system has been the focus of study for over a century. Discoveries made lately...
A Biomimetic SLAM Algorithm Based on Growing Self-Organizing Map (GSOM-BSLAM), inspired by spatial c...
Spatial navigation depends on the combination of multiple sensory cues from idiothetic and allotheti...
To navigate successfully in a novel environment a robot needs to be able to Simultaneously Localize ...
The work presents a new approach to the problem of simultaneous localization and mapping - SLAM - in...
This paper describes the current state of RatSLAM, a Simultaneous Localisation and Mapping (SLAM) sy...
This thesis describes the use of a hippocampal model as a basis for a complete robot mapping and nav...
This book describes the design and implementation of a vision-based Simultaneous Localisation And Ma...
This paper describes a biologically inspired approach to vision-only simultaneous localization and m...
The paper discusses robot navigation from biological inspiration. The authors sought to build a mode...
The RatSLAM system can perform vision based SLAM using a computational model of the rodent hippocamp...
The paper discusses robot navigation from biological inspiration. The authors sought to build a mode...
The dynamics of a rodent hippocampus during active locomotion is essentially two-dimensional in its ...
The ability to acquire a representation of the spatial environment and the ability to localize withi...
Robotic systems can perform well-defined tasks with exquisite precision at high speeds, but they hav...
The rodent navigation system has been the focus of study for over a century. Discoveries made lately...
A Biomimetic SLAM Algorithm Based on Growing Self-Organizing Map (GSOM-BSLAM), inspired by spatial c...
Spatial navigation depends on the combination of multiple sensory cues from idiothetic and allotheti...
To navigate successfully in a novel environment a robot needs to be able to Simultaneously Localize ...
The work presents a new approach to the problem of simultaneous localization and mapping - SLAM - in...
This paper describes the current state of RatSLAM, a Simultaneous Localisation and Mapping (SLAM) sy...
This thesis describes the use of a hippocampal model as a basis for a complete robot mapping and nav...
This book describes the design and implementation of a vision-based Simultaneous Localisation And Ma...
This paper describes a biologically inspired approach to vision-only simultaneous localization and m...
The paper discusses robot navigation from biological inspiration. The authors sought to build a mode...
The RatSLAM system can perform vision based SLAM using a computational model of the rodent hippocamp...
The paper discusses robot navigation from biological inspiration. The authors sought to build a mode...
The dynamics of a rodent hippocampus during active locomotion is essentially two-dimensional in its ...
The ability to acquire a representation of the spatial environment and the ability to localize withi...
Robotic systems can perform well-defined tasks with exquisite precision at high speeds, but they hav...
The rodent navigation system has been the focus of study for over a century. Discoveries made lately...
A Biomimetic SLAM Algorithm Based on Growing Self-Organizing Map (GSOM-BSLAM), inspired by spatial c...
Spatial navigation depends on the combination of multiple sensory cues from idiothetic and allotheti...