Technical Papers
Stitching
Wednesday, 8 August 10:45 AM - 12:15 PM | Los Angeles Convention Center, Room 403AB
Session Chair: Ping Tan, National University of Singapore
Stitching
Image Melding: Combining Inconsistent Images Using Patch-Based Synthesis
A method for synthesizing a gradual transition between source images with inconsistent color, texture, and structures. The meethod combines the benefits of patch-based, gradient-based, and texture-interpolation approaches. "Image melding" is applied in a variety of applications: seamless stitching, cloning, morphing, completion, harmonization, warping, and texture interpolation.
Soheil Darabi
University of New Mexico
Eli Shechtman
Adobe Systems Incorporated
Connelly Barnes
Adobe Systems Incorporated
Dan B. Goldman
Adobe Systems Incorporated
Pradeep Sen
University of New Mexico
Panorama Weaving: Fast and Flexible Seam Processing
This paper introduces the Panorama Weaving technique for production of optimal seams in a panorama. Weaving provides a procedure to create optimal boundaries for panoramas that is fast, low in memory, and easy to parallelize. It also provides the first interactive technique for exploration of the seam solution space.
Brian Summa
University of Utah and ViSUS Inc.
Julien Tierny
Télécom ParisTech
Valerio Pascucci
University of Utah, Pacific Northwest National Laboratory, and ViSUS Inc.
Understanding and Improving the Realism of Image Composites
Compositing is one of the most commonly performed operations in computer graphics. This paper uses statistical and visual perception experiments to study the realism of image composites, and describes a data-driven algorithm that automatically adjusts composites to improve their realism.
Su Xue
Yale University
Aseem Agarwala
Adobe Systems Incorporated
Julie Dorsey
Yale University
Holly Rushmeier
Yale University
Exposing Photo Manipulation With Inconsistent Reflections
A forensic technique that detects geometric inconsistencies that arise when fake reflections are inserted into a photograph or when a photograph containing reflections is manipulated.
James F. O'Brien
University of California, Berkeley
Hany Farid
Dartmouth College