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ISMAR
2002
IEEE

Accurate Camera Calibration for Off-line, Video-Based Augmented Reality

14 years 5 months ago
Accurate Camera Calibration for Off-line, Video-Based Augmented Reality
Camera tracking is a fundamental requirement for videobased Augmented Reality applications. The ability to accurately calculate the intrinsic and extrinsic camera parameters for each frame of a video sequence is essential if synthetic objects are to be integrated into the image data in a believable way. In this paper, we present an accurate and reliable approach to camera calibration for off-line videobased Augmented Reality applications. We first describe an improved feature tracking algorithm, based on the widely used Kanade-Lucas-Tomasi tracker. Estimates of inter-frame camera motion are used to guide tracking, greatly reducing the number of incorrectly tracked features. We then present a robust hierarchical scheme that merges sub-sequences together to form a complete projective reconstruction. Finally, we describe how RANSACbased random sampling can be applied to the problem of self-calibration, allowing for more reliable upgrades to metric geometry. Results of applying our calib...
Simon Gibson, Jonathan Cook, Toby Howard, Roger J.
Added 15 Jul 2010
Updated 15 Jul 2010
Type Conference
Year 2002
Where ISMAR
Authors Simon Gibson, Jonathan Cook, Toby Howard, Roger J. Hubbold, Daniel Oram
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