Domagoj Baričević scite author profile

Domagoj Baričević

4Publications

74Citation Statements Received

127Citation Statements Given

How they've been cited

How they cite others

133

126

Affiliations

University of California, Santa Barbara, Yes Technologies (United States)

Publications

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A hand-held AR magic lens with user-perspective rendering

Baričević

Lee

Turk

et al. 2012

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In this paper we present a user study evaluating the benefits of geometrically correct user-perspective rendering using an Augmented Reality (AR) magic lens. In simulation we compared a user-perspective magic lens against the common device-perspective magic lens on both phone-sized and tablet-sized displays. Our results indicate that a tablet-sized display allows for significantly faster performance of a selection task and that a user-perspective lens has benefits over a device-perspective lens for a selection task. Based on these promising results, we created a proof-of-concept prototype, engineered with current off-the-shelf devices and software. To our knowledge, this is the first geometrically correct userperspective magic lens.

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User-perspective augmented reality magic lens from gradients

Baričević

Höllerer

Sen

et al. 2014

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In this paper we present a new approach to creating a geometricallycorrect 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 magic lens that displays the correct user perspective with a high-quality rendering, despite the lack of a dense disparity map.

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User-Perspective AR Magic Lens from Gradient-Based IBR and Semi-Dense Stereo

Baričević

Höllerer

Sen

et al. 2017

IEEE Trans. Visual. Comput. Graphics

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We present a new approach to rendering a geometrically-correct user-perspective view for a magic lens interface, based on leveraging the gradients in the real world scene. Our approach couples a recent gradient-domain image-based rendering method with a novel semi-dense stereo matching algorithm. Our stereo algorithm borrows ideas from PatchMatch, and adapts them to semi-dense stereo. This approach is implemented in a prototype device build from off-the-shelf hardware, with no active depth sensing. Despite the limited depth data, we achieve high-quality rendering for the user-perspective magic lens.

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Densification of Semi-Dense Reconstructions for Novel View Generation of Live Scenes

Baričević

Höllerer

Turk

2017

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