Add to ORKGThis paper presents an algorithm to find the line-based map that best fits sets of two-dimensional range scan data. To construct the map, we first provide an accurate means to fit a line segment to a set of uncertain points via maximum likelihood formalism. This scheme weights each point's influence on the fit according to its uncertainty, which is derived from sensor noise models. We also provide closed-form formulas for the covariance of the line fit, along with methods to transform line coordinates and covariances across robot poses. A Chi-squared based criterion for "knitting" together sufficiently similar lines can be used to merge lines directly (as we demonstrate) or as part of the framework for a line-based SLAM implementation. Expe...
This paper describes a geometrically constrained Extended Kalman Filter (EKF) framework for a line f...
A mobile robot exploring an unknown environment has no absolute frame of reference for its position,...
A fundamental competence of any mobile robot system is the ability to remain localized while operati...
This paper presents an algorithm to find the line-based map that best fits sets of two-dimensional r...
This paper presents a multi-scale point and line based representation of two-dimensional range scan ...
Robot mapping and exploration tasks are crucial for many robotic applications and allow mobile robot...
Introduces a "weighted" matching algorithm to estimate a robot's planar displacement by matching two...
This paper presents an algorithm for solving the simultaneous localization and map building (SLAM) p...
This paper presents an experimental evaluation of different line extraction algorithms applied to 2D...
One of the most essential problems for mobile robot navigation is to enable an autonomous robot to n...
We present a method of simultaneous localization and mapping (SLAM) in a large indoor environment us...
Line detection is an important problem in computer vision, graphics and autonomous robot navigation....
We present an approach for indoor mapping and localisation with a mobile robot using sparse range da...
This paper describes techniques to identify various features in a scene using a laser range finding ...
This paper presents an algorithm for environment mapping by integrating scans from a time-of-flight ...
This paper describes a geometrically constrained Extended Kalman Filter (EKF) framework for a line f...
A mobile robot exploring an unknown environment has no absolute frame of reference for its position,...
A fundamental competence of any mobile robot system is the ability to remain localized while operati...
This paper presents an algorithm to find the line-based map that best fits sets of two-dimensional r...
This paper presents a multi-scale point and line based representation of two-dimensional range scan ...
Robot mapping and exploration tasks are crucial for many robotic applications and allow mobile robot...
Introduces a "weighted" matching algorithm to estimate a robot's planar displacement by matching two...
This paper presents an algorithm for solving the simultaneous localization and map building (SLAM) p...
This paper presents an experimental evaluation of different line extraction algorithms applied to 2D...
One of the most essential problems for mobile robot navigation is to enable an autonomous robot to n...
We present a method of simultaneous localization and mapping (SLAM) in a large indoor environment us...
Line detection is an important problem in computer vision, graphics and autonomous robot navigation....
We present an approach for indoor mapping and localisation with a mobile robot using sparse range da...
This paper describes techniques to identify various features in a scene using a laser range finding ...
This paper presents an algorithm for environment mapping by integrating scans from a time-of-flight ...
This paper describes a geometrically constrained Extended Kalman Filter (EKF) framework for a line f...
A mobile robot exploring an unknown environment has no absolute frame of reference for its position,...
A fundamental competence of any mobile robot system is the ability to remain localized while operati...