Example Based Caricature Synthesis
Authors: Chen, W., Yu, H. and Zhang, J.J.
Publisher: CIP Gegevens Koninklijke Bibliotheek,
Place of Publication: Den Haag, Netherlands
Abstract:The likeness of a caricature to the original face image is an essential and often overlooked part of caricature production. In this paper we present an example based caricature synthesis technique, consisting of shape exaggeration, relationship exaggeration, and optimization for likeness. Rather than relying on a large training set of caricature face pairs, our shape exaggeration step is based on only one or a small number of examples of facial features. The relationship exaggeration step introduces two definitions which facilitate global facial feature synthesis. The first is the T-Shape rule, which describes the relative relationship between the facial elements in an intuitive manner. The second is the so called proportions, which characterizes the facial features in a proportion form. Finally we introduce a similarity metric as the likeness metric based on the Modified Hausdorff Distance (MHD) which allows us to optimize the configuration of facial elements, maximizing likeness while satisfying a number of constraints. The effectiveness of our algorithm is demonstrated with experimental results.
https://eprints.bournemouth.ac.uk/14735/
http://www.ctit.utwente.nl/library/proceedings/wp0902.pdf
Source: Manual
Preferred by: Jian Jun Zhang and Hongchuan Yu
Example Based Caricature Synthesis
Authors: Chen, W., Yu, H. and Zhang, J.J.
Publisher: CIP Gegevens Koninklijke Bibliotheek,
Place of Publication: Den Haag, Netherlands
Abstract:The likeness of a caricature to the original face image is an essential and often overlooked part of caricature production. In this paper we present an example based caricature synthesis technique, consisting of shape exaggeration, relationship exaggeration, and optimization for likeness. Rather than relying on a large training set of caricature face pairs, our shape exaggeration step is based on only one or a small number of examples of facial features. The relationship exaggeration step introduces two definitions which facilitate global facial feature synthesis. The first is the T-Shape rule, which describes the relative relationship between the facial elements in an intuitive manner. The second is the so called proportions, which characterizes the facial features in a proportion form. Finally we introduce a similarity metric as the likeness metric based on the Modified Hausdorff Distance (MHD) which allows us to optimize the configuration of facial elements, maximizing likeness while satisfying a number of constraints. The effectiveness of our algorithm is demonstrated with experimental results.
https://eprints.bournemouth.ac.uk/14735/
http://www.ctit.utwente.nl/library/proceedings/wp0902.pdf
Source: BURO EPrints