21,178 research outputs found
Cali-Sketch: Stroke Calibration and Completion for High-Quality Face Image Generation from Poorly-Drawn Sketches
Image generation task has received increasing attention because of its wide
application in security and entertainment. Sketch-based face generation brings
more fun and better quality of image generation due to supervised interaction.
However, When a sketch poorly aligned with the true face is given as input,
existing supervised image-to-image translation methods often cannot generate
acceptable photo-realistic face images. To address this problem, in this paper
we propose Cali-Sketch, a poorly-drawn-sketch to photo-realistic-image
generation method. Cali-Sketch explicitly models stroke calibration and image
generation using two constituent networks: a Stroke Calibration Network (SCN),
which calibrates strokes of facial features and enriches facial details while
preserving the original intent features; and an Image Synthesis Network (ISN),
which translates the calibrated and enriched sketches to photo-realistic face
images. In this way, we manage to decouple a difficult cross-domain translation
problem into two easier steps. Extensive experiments verify that the face
photos generated by Cali-Sketch are both photo-realistic and faithful to the
input sketches, compared with state-of-the-art methodsComment: 10 pages, 12 figure
Where and Who? Automatic Semantic-Aware Person Composition
Image compositing is a method used to generate realistic yet fake imagery by
inserting contents from one image to another. Previous work in compositing has
focused on improving appearance compatibility of a user selected foreground
segment and a background image (i.e. color and illumination consistency). In
this work, we instead develop a fully automated compositing model that
additionally learns to select and transform compatible foreground segments from
a large collection given only an input image background. To simplify the task,
we restrict our problem by focusing on human instance composition, because
human segments exhibit strong correlations with their background and because of
the availability of large annotated data. We develop a novel branching
Convolutional Neural Network (CNN) that jointly predicts candidate person
locations given a background image. We then use pre-trained deep feature
representations to retrieve person instances from a large segment database.
Experimental results show that our model can generate composite images that
look visually convincing. We also develop a user interface to demonstrate the
potential application of our method.Comment: 10 pages, 9 figure
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