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Computational Imaging for Stop-Motion animated Video Productions

 
: Zilly, Frederik; Ziegler, Matthias; Keinert, Joachim; Schöberl, Michael; Foessel, Siegfried

:

International Broadcasting Convention -IBC-:
IBC 2014 Conference. Proceedings : Amsterdam, 11-15 September 2014
London: IET, 2014
ISBN: 978-1-84919-927-8
pp.12.3
International Broadcasting Convention (IBC) <2014, Amsterdam>
English
Conference Paper
Fraunhofer IIS ()
Lichtfeld; Computational Imaging

Abstract
Creating movies using stop-motion technology remains to be a fascinating approach for story telling even in the era of digital cinema. A huge number of professional and semi-professional clips produced as fan-art which can be watched on internet video platforms serve as testimonial for the unbroken interest in unleashing creative potential using this technology. However, producing content using stop-motion remains a cumbersome task, which raises the production costs especially for full length movies. Consequently, a trend can be observed that even for successful television series which were originally produced using stop-motion the production scheme was changed to computer animation. Against this background, we propose within this paper a new production scheme for stop-motion-animated movies which has the potential to lower the production costs while increasing the quality of the resulting content. By using a static multi-camera array and algorithms from the field of computational imaging, our technology allows creating artistic effects in the post-production which are difficult to realize using conventional stop-motion production methods. Our approach allows changing the depth-of-field, smoothly moving the camera along virtual camera paths, and upsampling the frame-rate of the stop-motion-video in high quality. Thereby all effects are computed and applied in post-production, while all intrinsic and extrinsic parameters of the cameras remain static during the whole production. To demonstrate the practicability, within this paper, we show results from a stop motion video which has been produced using the proposed approach.

: http://publica.fraunhofer.de/documents/N-321909.html