Natural feature tracking for augmented reality

Abstract

Natural scene features stabilize and extend the tracking range of augmented reality (AR) pose-tracking systems. We develop robust computer vision methods to detect and track natural features in video images. Point and region features are automatically and adaptively selected for properties that lead to robust tracking. A multistage tracking algorithm produces accurate motion estimates, and the entire system operates in a closed-loop that stabilizes its performance and accuracy. We present demonstrations of the benefits of using tracked natural features for AR applications that illustrate direct scene annotation, pose stabilization, and extendible tracking range. Our system represents a step toward integrating vision with graphics to produce robust wide-area augmented realities.

Keywords

This publication has 24 references indexed in Scilit:

Superior augmented reality registration by integrating landmark tracking and magnetic tracking
Published by Association for Computing Machinery (ACM) ,1996
The computation of optical flow
ACM Computing Surveys, 1995
Vision-Based Object Registration for Real-Time Image Overlay
Lecture Notes in Computer Science, 1995
Review and analysis of solutions of the three point perspective pose estimation problem
International Journal of Computer Vision, 1994
Knowledge-based augmented reality
Communications of the ACM, 1993
Computation of component image velocity from local phase information
International Journal of Computer Vision, 1990
A computational framework and an algorithm for the measurement of visual motion
International Journal of Computer Vision, 1989
On a constraint equation for the estimation of displacement rates in image sequences
IEEE Transactions on Pattern Analysis and Machine Intelligence, 1989
Computations underlying the measurement of visual motion
Artificial Intelligence, 1984
Determining optical flow
Artificial Intelligence, 1981

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