Add to ORKGThis paper presents a new approach to robustly track a robot’s location in indoor environments using a partially observable Markov model. This model is constructed from topological representation of the environment, plus actuator an sensor characteristics. The system takes into account various sources of uncertainty to maintain a probability distribution over all possible locations of the robot. A novel feature of our approach is the integration of visual information to augment the robustness of the system. We show the first results of this approach in localizing an actual mobile robot navigating corridors
This paper describes a localization system for mobile robots moving in dynamic indoor environments, ...
In this chapter we have presented the performance of a localization method of legged AIBO robots i...
We propose a topology-based Bayesian visual navigation framework, with which we represent the world ...
Autonomous mobile robots need very reliable navigation capabilities in order to operate unattended ...
Autonomous mobile robots need very reliable navigation capabilities in order to operate unattended f...
Autonomous mobile robots need very reliable navigation capabilities in order to operate unattended f...
This paper presents a visual based localization mechanism for a legged robot in indoor office environ...
This paper presents a visual based localization mechanism for a legged robot in indoor office environ...
This paper solves the problem of localization for indoor environments using visual place recognition...
For mobile robots to be successful, they have to navigate safely in populated and dynamic environmen...
This paper addresses the problem of localization and map construction by a mobile robot in an indoor...
Robots are becoming more of a part of our daily lives. They have become an extension of some our hum...
One of the main problems of topological localization in a real indoor environment is variations in t...
Appearance-based localization compares the current image taken from a robot’s camera to a set of pre...
Reliable autonomous robot navigation is critically important when a mobile service robot is used in ...
This paper describes a localization system for mobile robots moving in dynamic indoor environments, ...
In this chapter we have presented the performance of a localization method of legged AIBO robots i...
We propose a topology-based Bayesian visual navigation framework, with which we represent the world ...
Autonomous mobile robots need very reliable navigation capabilities in order to operate unattended ...
Autonomous mobile robots need very reliable navigation capabilities in order to operate unattended f...
Autonomous mobile robots need very reliable navigation capabilities in order to operate unattended f...
This paper presents a visual based localization mechanism for a legged robot in indoor office environ...
This paper presents a visual based localization mechanism for a legged robot in indoor office environ...
This paper solves the problem of localization for indoor environments using visual place recognition...
For mobile robots to be successful, they have to navigate safely in populated and dynamic environmen...
This paper addresses the problem of localization and map construction by a mobile robot in an indoor...
Robots are becoming more of a part of our daily lives. They have become an extension of some our hum...
One of the main problems of topological localization in a real indoor environment is variations in t...
Appearance-based localization compares the current image taken from a robot’s camera to a set of pre...
Reliable autonomous robot navigation is critically important when a mobile service robot is used in ...
This paper describes a localization system for mobile robots moving in dynamic indoor environments, ...
In this chapter we have presented the performance of a localization method of legged AIBO robots i...
We propose a topology-based Bayesian visual navigation framework, with which we represent the world ...