We discuss recently published models of neural information processing under uncertainty and a SLAM system that was inspired by the neural structures underlying mammalian spatial navigation. We summarize the derivation of a novel filter scheme that captures the important ideas of the biologically inspired SLAM approach, but implements them on a higher level of abstraction. This leads to a new and more efficient approach to biologically inspired filtering which we successfully applied to real world urban SLAM challenge of 66 km length
We consider the problem of Simultaneous Localization and Mapping (SLAM) from a Bayesian point of vie...
Spatial navigation depends on the combination of multiple sensory cues from idiothetic and allotheti...
DoctorIntelligent mobility is a fundamental requirement of autonomous robots. To achieve this, mobil...
Abstract: A SLAM algorithm inspired by biological principles has been recently proposed and shown to...
Recently a SLAM algorithm based on biological principles (RatSLAM) has been proposed. It was proven ...
Robotic systems can perform well-defined tasks with exquisite precision at high speeds, but they hav...
In this paper we summarize the most important neuronal fundamentals of navigation in rodents, primat...
Neural networks have long been a promising model for creating high performance robotic systems, from...
Robot simultaneous localization and mapping (SLAM) problem is a very important and challenging issue...
This paper describes a biologically inspired approach to vision-only simultaneous localization and m...
A Biomimetic SLAM Algorithm Based on Growing Self-Organizing Map (GSOM-BSLAM), inspired by spatial c...
Roboticists have long drawn inspiration from nature to develop navigation and simultaneous localizat...
Simultaneous localization and mapping (SLAM) represents a fundamental problem for autonomous embodie...
To navigate in new environments, an animal must be able to keep track of its position while simultan...
International audienceThis paper introduces a new approach to SLAM which combines an Information Fil...
We consider the problem of Simultaneous Localization and Mapping (SLAM) from a Bayesian point of vie...
Spatial navigation depends on the combination of multiple sensory cues from idiothetic and allotheti...
DoctorIntelligent mobility is a fundamental requirement of autonomous robots. To achieve this, mobil...
Abstract: A SLAM algorithm inspired by biological principles has been recently proposed and shown to...
Recently a SLAM algorithm based on biological principles (RatSLAM) has been proposed. It was proven ...
Robotic systems can perform well-defined tasks with exquisite precision at high speeds, but they hav...
In this paper we summarize the most important neuronal fundamentals of navigation in rodents, primat...
Neural networks have long been a promising model for creating high performance robotic systems, from...
Robot simultaneous localization and mapping (SLAM) problem is a very important and challenging issue...
This paper describes a biologically inspired approach to vision-only simultaneous localization and m...
A Biomimetic SLAM Algorithm Based on Growing Self-Organizing Map (GSOM-BSLAM), inspired by spatial c...
Roboticists have long drawn inspiration from nature to develop navigation and simultaneous localizat...
Simultaneous localization and mapping (SLAM) represents a fundamental problem for autonomous embodie...
To navigate in new environments, an animal must be able to keep track of its position while simultan...
International audienceThis paper introduces a new approach to SLAM which combines an Information Fil...
We consider the problem of Simultaneous Localization and Mapping (SLAM) from a Bayesian point of vie...
Spatial navigation depends on the combination of multiple sensory cues from idiothetic and allotheti...
DoctorIntelligent mobility is a fundamental requirement of autonomous robots. To achieve this, mobil...