The ability to build maps of indoor environments is extremely important for autonomous mobile robots. In this paper we introduce Voronoi random fields (VRFs), a novel technique for mapping the topological structure of indoor environments. Our maps describe environments in terms of their spatial layout along with information about the different places and their connectivity. To build these maps, we extract a Voronoi graph from an occupancy grid map generated with a laser range-finder, and then represent each point on the Voronoi graph as a node of a conditional random field, which is a discriminatively trained graphical model. The resulting VRF estimates the label of each node, integrating features from both the map and the Voronoi topology....
A fundamental problem in indoor location-based services is to compute the meaning of location with r...
Topological maps generated in complex and irregular unknown environments are meaningful for autonomo...
Abstract. In this paper we present a framework to construct topological-metric 2D maps of indoor env...
Representation of spaces including both geometric and semantic information enables a robot to perfor...
Many robotics tasks require the robot to predict what lies in the unexplored part of the environment...
Localization is one of the fundamental problems for mobile robots. Hence, there are several related ...
This paper presents an approach to create topological maps from geometric maps obtained with a mobil...
Consider a mobile robot exploring an initially unknown school building and assume that it has alread...
This paper addresses the problem of localization and map construction by a mobile robot in an indoor...
Indoor environments can typically be divided into places with different functionalities like corrido...
Indoor environments can typically be divided into places with different functionalities like corrido...
We consider exploration tasks in which an autonomous mobile robot incrementally builds maps of initi...
Metric maps, like occupancy grids, are one of the most common ways to represent indoor environments ...
Indoor environments can typically be divided into places with different functionalities like corrid...
AbstractAutonomous robots must be able to learn and maintain models of their environments. Research ...
A fundamental problem in indoor location-based services is to compute the meaning of location with r...
Topological maps generated in complex and irregular unknown environments are meaningful for autonomo...
Abstract. In this paper we present a framework to construct topological-metric 2D maps of indoor env...
Representation of spaces including both geometric and semantic information enables a robot to perfor...
Many robotics tasks require the robot to predict what lies in the unexplored part of the environment...
Localization is one of the fundamental problems for mobile robots. Hence, there are several related ...
This paper presents an approach to create topological maps from geometric maps obtained with a mobil...
Consider a mobile robot exploring an initially unknown school building and assume that it has alread...
This paper addresses the problem of localization and map construction by a mobile robot in an indoor...
Indoor environments can typically be divided into places with different functionalities like corrido...
Indoor environments can typically be divided into places with different functionalities like corrido...
We consider exploration tasks in which an autonomous mobile robot incrementally builds maps of initi...
Metric maps, like occupancy grids, are one of the most common ways to represent indoor environments ...
Indoor environments can typically be divided into places with different functionalities like corrid...
AbstractAutonomous robots must be able to learn and maintain models of their environments. Research ...
A fundamental problem in indoor location-based services is to compute the meaning of location with r...
Topological maps generated in complex and irregular unknown environments are meaningful for autonomo...
Abstract. In this paper we present a framework to construct topological-metric 2D maps of indoor env...