User-perspective augmented reality magic lens from gradients

@inproceedings{Barievi2014UserperspectiveAR,
  title={User-perspective augmented reality magic lens from gradients},
  author={Domagoj Bari{\vc}evi{\'c} and Tobias H{\"o}llerer and Pradeep Sen and M. Turk},
  booktitle={VRST '14},
  year={2014}
}
In this paper we present a new approach to creating a geometrically-correct user-perspective magic lens and a prototype device implementing the approach. Our prototype uses just standard color cameras, with no active depth sensing. We achieve this by pairing a recent gradient domain image-based rendering method with a novel semi-dense stereo matching algorithm inspired by PatchMatch. Our stereo algorithm is simple but fast and accurate within its search area. The resulting system is a real-time… Expand
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References

SHOWING 1-7 OF 7 REFERENCES
Approximated user-perspective rendering in tablet-based augmented reality
  • 49
  • Highly Influential
Evaluating dual-view perceptual issues in handheld augmented reality: device vs. user perspective rendering
  • 34
  • Highly Influential
  • PDF
Review of image-based rendering techniques
  • H. Shum, S. B. Kang
  • Computer Science, Engineering
  • Visual Communications and Image Processing
  • 2000
  • 355
  • Highly Influential
  • PDF
Virtual transparency: Introducing parallax view into video see-through AR
  • 39
  • Highly Influential
PatchMatch: a randomized correspondence algorithm for structural image editing
  • 795
  • Highly Influential
  • PDF
The virtual tricorder: a uniform interface for virtual reality
  • 108
  • Highly Influential
Face alignment through subspace constrained mean-shifts
  • 391
  • Highly Influential
  • PDF