Title :
Simultaneous localization and mapping with infinite planes
Author_Institution :
Robot. Inst., Carnegie Mellon Univ., Pittsburgh, PA, USA
Abstract :
Simultaneous localization and mapping with infinite planes is attractive because of the reduced complexity with respect to both sparse point-based and dense volumetric methods. We show how to include infinite planes into a least-squares formulation for mapping, using a homogeneous plane parametrization with a corresponding minimal representation for the optimization. Because it is a minimal representation, it is suitable for use with Gauss-Newton, Powell´s Dog Leg and incremental solvers such as iSAM. We also introduce a relative plane formulation that improves convergence. We evaluate our proposed approach on simulated data to show its advantages over alternative solutions. We also introduce a simple mapping system and present experimental results, showing real-time mapping of select indoor environments with a hand-held RGB-D sensor.
Keywords :
Newton method; SLAM (robots); least squares approximations; Gauss-Newton solvers; Powell Dog Leg solvers; dense volumetric methods; hand-held RGB-D sensor; homogeneous plane parametrization; iSAM; incremental solvers; indoor environments; infinite planes; least-squares formulation; relative plane formulation; simultaneous localization and mapping; sparse point-based volumetric methods; Convergence; Estimation; Optimization; Quaternions; Simultaneous localization and mapping; Three-dimensional displays;
Conference_Titel :
Robotics and Automation (ICRA), 2015 IEEE International Conference on
Conference_Location :
Seattle, WA
DOI :
10.1109/ICRA.2015.7139837
