In this paper, we present a vanishing point-based two-step loop closure method in a line-based monocular simultaneous localization and mapping (SLAM) system. Vanishing points can provide absolute directional landmarks for mobile robots. This guiding ability is important in that the observation of the vanishing points is invariant with respect to the robot pose. In our system, loop closure is performed in two steps: first, the accumulated heading error is reduced using an observation of previously registered vanishing points, and second, the observation of known floor lines allows for further pose correction. In this paper, we apply this method to solve the loop closure problem for a line-based SLAM within a corridor environment where the va...
Abstract—We address the problem of simultaneous localization and mapping (SLAM) by combining visual ...
© 2014 Cambridge University Press. This paper presents a new monocular SLAM algorithm that uses stra...
Loop closing is the problem of correctly asserting that a robot has returning to a previously visite...
The loop closure problem is one of the most challenging issues in the vision-based simultaneous loca...
In this paper, we propose a vertical and floor line-based monocular simultaneous localization and ma...
In this paper we present a loop closure method for a handheld single-camera SLAM system based on our...
In this paper we describe a system for use on a mobile robot that detects potential loop closures us...
Monocular SLAM has the potential to turn inexpensive cameras into powerful pose sensors for applicat...
This paper is concerned with "loop closing" for mobile robots. Loop closing is the problem of correc...
Abstract—This paper presents an approach of visual SLAM using line segments as primitives. We choose...
This thesis is concerned with the detection of loop closing in a Simultaneous Localisation arid Mapp...
Abstract. One fundamental problem in mobile robotics research is Simultaneous Localization and Mappi...
Loop-closure detection is crucial for enhancing the robustness of SLAM algorithms in general. For ex...
This paper describes a 3D SLAM system using information from an actuated laser scanner and camera in...
Simultaneous Localization and Mapping (SLAM) is the problem of localizing a sensor in a map that is ...
Abstract—We address the problem of simultaneous localization and mapping (SLAM) by combining visual ...
© 2014 Cambridge University Press. This paper presents a new monocular SLAM algorithm that uses stra...
Loop closing is the problem of correctly asserting that a robot has returning to a previously visite...
The loop closure problem is one of the most challenging issues in the vision-based simultaneous loca...
In this paper, we propose a vertical and floor line-based monocular simultaneous localization and ma...
In this paper we present a loop closure method for a handheld single-camera SLAM system based on our...
In this paper we describe a system for use on a mobile robot that detects potential loop closures us...
Monocular SLAM has the potential to turn inexpensive cameras into powerful pose sensors for applicat...
This paper is concerned with "loop closing" for mobile robots. Loop closing is the problem of correc...
Abstract—This paper presents an approach of visual SLAM using line segments as primitives. We choose...
This thesis is concerned with the detection of loop closing in a Simultaneous Localisation arid Mapp...
Abstract. One fundamental problem in mobile robotics research is Simultaneous Localization and Mappi...
Loop-closure detection is crucial for enhancing the robustness of SLAM algorithms in general. For ex...
This paper describes a 3D SLAM system using information from an actuated laser scanner and camera in...
Simultaneous Localization and Mapping (SLAM) is the problem of localizing a sensor in a map that is ...
Abstract—We address the problem of simultaneous localization and mapping (SLAM) by combining visual ...
© 2014 Cambridge University Press. This paper presents a new monocular SLAM algorithm that uses stra...
Loop closing is the problem of correctly asserting that a robot has returning to a previously visite...