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ISMAR
2002
IEEE
2002
IEEE
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...
Real-time TrafficAugmented Reality | Augmented Reality Applications | Camera | ISMAR 2002 | Videobased Augmented Reality |
Related Content
| 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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