Title :
Multi-camera rectification using linearized trifocal tensor
Author :
Zilly, Frederik ; Riechert, Christian ; Muller, Mathias ; Waizenegger, W. ; Sikora, Thomas ; Kauff, P.
Author_Institution :
Fraunhofer Inst. for Telecommun., Berlin, Germany
Abstract :
Multi-camera systems such as linear camera arrays are commonly used to capture content for multi-baseline stereo estimation, view generation for auto-stereoscopic displays, or similar tasks. However, even after a careful mechanical alignment, residual vertical disparities and horizontal disparity offsets impair further processing steps. In consequence, the multicamera content needs to be rectified on a common baseline. The trifocal tensor represents the geometry between three cameras and hence is a helpful tool to calibrate a multi-camera system, and to derive rectifying homographies. Against this background we propose a new method for a robust estimation of the trifocal tensor specialized for linear camera arrays and subsequent rectifying homography computation based on feature point triplets.
Keywords :
computational geometry; feature extraction; image sensors; stereo image processing; tensors; autostereoscopic displays; computer vision; feature point triplets; horizontal disparity offsets; linear camera arrays; linearized trifocal tensor; mechanical alignment; multibaseline stereo estimation; multicamera rectification; multicamera systems; rectifying homography computation; residual vertical disparities; view generation; Cameras; Estimation; Geometry; Robustness; Stereo vision; Taylor series; Tensile stress;
Conference_Titel :
Pattern Recognition (ICPR), 2012 21st International Conference on
Conference_Location :
Tsukuba
Print_ISBN :
978-1-4673-2216-4
