For robot mapping occupancy grid maps are the most common representation of the environment. However, most existing algorithms for creating such maps assume a fixed resolution of the grid cells. In this paper we present a novel mapping technique that chooses the resolution of each cell adaptively by merging and splitting cells depending on the measurements. The splitting of the cells is based on a statistical measure that we derive in this paper. In contrast to other approaches the adaption of the resolution is done online during the mapping process itself. Additionally, we introduce the Nd-Tree, a generalization of quadtrees and octrees that allows to subdivide any d-dimensional volume recursively with Nd children per node. Using this data...
Abstract — In order to achieve good and timely volumetric mapping for mobile robots, we improve the ...
This paper describes an implementation of the occu-pancy grid algorithm, one of the most popular alg...
Building suitable representations for diversified environments to enable robot autonomous navigation...
In order to solve the problem that uniform grid map occupies large storage space in the process of l...
With the aim of bridging the gap between high quality reconstruction and mobile robot motion plannin...
Abstract — In this paper, we present a novel multi-resolution approach to efficiently mapping 3D env...
Abstract — In this paper, we present a novel multi-resolution approach to efficiently mapping 3D env...
A mobile robot equipped with a range sensor can create a map of its environment given the range meas...
Occupancy grid mapping algorithms assume that grid block values are independently distributed. Howev...
This thesis examines the fundamentals of some common robotic mapping techniques that will be used in...
We describe a novel approach to topological mapping for mobile robotics, and its advantages over exi...
Abstract—For effective mobile robots we need a concise yet adequately descriptive mechanism for repr...
Generating meaningful spatial models of physical environments is a crucial ability for autonomous na...
© 2016 Taylor & Francis and The Robotics Society of Japan. This paper presents a grid-based scan-to-...
This paper presents two parts of the whole system we are developing. The first one is a new method f...
Abstract — In order to achieve good and timely volumetric mapping for mobile robots, we improve the ...
This paper describes an implementation of the occu-pancy grid algorithm, one of the most popular alg...
Building suitable representations for diversified environments to enable robot autonomous navigation...
In order to solve the problem that uniform grid map occupies large storage space in the process of l...
With the aim of bridging the gap between high quality reconstruction and mobile robot motion plannin...
Abstract — In this paper, we present a novel multi-resolution approach to efficiently mapping 3D env...
Abstract — In this paper, we present a novel multi-resolution approach to efficiently mapping 3D env...
A mobile robot equipped with a range sensor can create a map of its environment given the range meas...
Occupancy grid mapping algorithms assume that grid block values are independently distributed. Howev...
This thesis examines the fundamentals of some common robotic mapping techniques that will be used in...
We describe a novel approach to topological mapping for mobile robotics, and its advantages over exi...
Abstract—For effective mobile robots we need a concise yet adequately descriptive mechanism for repr...
Generating meaningful spatial models of physical environments is a crucial ability for autonomous na...
© 2016 Taylor & Francis and The Robotics Society of Japan. This paper presents a grid-based scan-to-...
This paper presents two parts of the whole system we are developing. The first one is a new method f...
Abstract — In order to achieve good and timely volumetric mapping for mobile robots, we improve the ...
This paper describes an implementation of the occu-pancy grid algorithm, one of the most popular alg...
Building suitable representations for diversified environments to enable robot autonomous navigation...