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Face image super-resolution using 2D CCA
In this paper a face super-resolution method using two-dimensional canonical correlation analysis (2D CCA) is presented. A detail compensation step is followed to add high-frequency components to the reconstructed high-resolution face. Unlike most of the previous researches on face super-resolution algorithms that first transform the images into vectors, in our approach the relationship between the high-resolution and the low-resolution face image are maintained in their original 2D representation. In addition, rather than approximating the entire face, different parts of a face image are super-resolved separately to better preserve the local structure. The proposed method is compared with various state-of-the-art super-resolution algorithms using multiple evaluation criteria including face recognition performance. Results on publicly available datasets show that the proposed method super-resolves high quality face images which are very close to the ground-truth and performance gain is not dataset dependent. The method is very efficient in both the training and testing phases compared to the other approaches. © 2013 Elsevier B.V
Data-Driven Shape Analysis and Processing
Data-driven methods play an increasingly important role in discovering
geometric, structural, and semantic relationships between 3D shapes in
collections, and applying this analysis to support intelligent modeling,
editing, and visualization of geometric data. In contrast to traditional
approaches, a key feature of data-driven approaches is that they aggregate
information from a collection of shapes to improve the analysis and processing
of individual shapes. In addition, they are able to learn models that reason
about properties and relationships of shapes without relying on hard-coded
rules or explicitly programmed instructions. We provide an overview of the main
concepts and components of these techniques, and discuss their application to
shape classification, segmentation, matching, reconstruction, modeling and
exploration, as well as scene analysis and synthesis, through reviewing the
literature and relating the existing works with both qualitative and numerical
comparisons. We conclude our report with ideas that can inspire future research
in data-driven shape analysis and processing.Comment: 10 pages, 19 figure
Cross domain Image Transformation and Generation by Deep Learning
Compared with single domain learning, cross-domain learning is more challenging due to the large domain variation. In addition, cross-domain image synthesis is more difficult than other cross learning problems, including, for example, correlation analysis, indexing, and retrieval, because it needs to learn complex function which contains image details for photo-realism. This work investigates cross-domain image synthesis in two common and challenging tasks, i.e., image-to-image and non-image-to-image transfer/synthesis.The image-to-image transfer is investigated in Chapter 2, where we develop a method for transformation between face images and sketch images while preserving the identity. Different from existing works that conduct domain transfer in a one-pass manner, we design a recurrent bidirectional transformation network (r-BTN), which allows bidirectional domain transfer in an integrated framework. More importantly, it could perceptually compose partial inputs from two domains to simultaneously synthesize face and sketch images with consistent identity. Most existing works could well synthesize images from patches that cover at least 70% of the original image. The proposed r-BTN could yield appealing results from patches that cover less than 10% because of the recursive estimation of the missing region in an incremental manner. Extensive experiments have been conducted to demonstrate the superior performance of r-BTN as compared to existing solutions.Chapter 3 targets at image transformation/synthesis from non-image sources, i.e., generating talking face based on the audio input. Existing works either do not consider temporal dependency thus yielding abrupt facial/lip movement or are limited to the generation for a specific person thus lacking generalization capacity. A novel conditional recurrent generation network which incorporates image and audio features in the recurrent unit for temporal dependency is proposed such that smooth transition can be achieved for lip and facial movements. To achieve image- and video-realism, we adopt a pair of spatial-temporal discriminators. Accurate lip synchronization is essential to the success of talking face video generation where we construct a lip-reading discriminator to boost the accuracy of lip synchronization. Extensive experiments demonstrate the superiority of our framework over the state-of-the-arts in terms of visual quality, lip sync accuracy, and smooth transition regarding lip and facial movement
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