Zoom Factor Compensation for Monocular SLAM

2015 IEEE Virtual Reality (VR) Arles, FranceSLAM algorithms are widely used in augmented reality applications for registering virtual objects. Most SLAM algorithms estimate camera poses and 3D positions of feature points using known intrinsic camera parameters that are calibrated and fixed in advance. This assumption means that the algorithm does not allow changing the intrinsic camera parameters during runtime. We propose a method for handling focal length changes in the SLAM algorithm. Our method is designed as a pre-processing step for the SLAM algorithm input. In our method, the change of the focal length is estimated before the tracking process of the SLAM algorithm. Camera zooming effects in the input camera images are compensated for by using the estimated focal length change. By using our method, camera zooming can be used in the existing SLAM algorithms such as PTAM [4] with minor modifications. In the experiment, the effectiveness of the proposed method was quantitatively evaluated. The results indicate that the method can successfully deal with abrupt changes of the camera focal length

FOCAL LENGTH CHANGE COMPENSATION FOR MONOCULAR SLAM

2015 IEEE International Conference on Image Processing (ICIP), 27-30 Sept. 2015,Quebec City, QC, CanadaIn this paper, we propose a method for handling focal length changes in the SLAM algorithm. Our method is designed as a pre-processing step to first estimate the change of the camera focal length, and then compensate for the zooming effects before running the actual SLAM algorithm. By using our method, camera zooming can be used in the existing SLAM algorithms with minor modifications. In the experiments, the effectiveness of the proposed method was quantitatively evaluated. The results indicate that the method can successfully deal with abrupt changes of the camera focal length