Easy-to-use authoring system for Noh (Japanese traditional) dance animation and its evaluation

Noh is a genre of Japanese traditional theater, a kind of musical drama. Similar to other dance forms, Noh dance ( shimai ) can also be divided into small, discrete units of motion ( shosa ). Therefore, if we have a set of motion clips of motion units ( shosa ), we can synthesize Noh dance animation...

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Bibliographic Details
Published in:The Visual computer 2013-10, Vol.29 (10), p.1077-1091
Main Authors: Oshita, Masaki, Seki, Takeshi, Yamanaka, Reiko, Nakatsuka, Yukiko, Iwatsuki, Masami
Format: Article
Language:English
Subjects:
Algorithms
Animation
Artificial Intelligence
Authoring
Clips
Computer Graphics
Computer Science
Dance
Dance notation
Editing
Image Processing and Computer Vision
Knowledge
Locomotion
Motion capture
Movement
Original Article
Performance evaluation
Software
Synthesis
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Summary:Noh is a genre of Japanese traditional theater, a kind of musical drama. Similar to other dance forms, Noh dance ( shimai ) can also be divided into small, discrete units of motion ( shosa ). Therefore, if we have a set of motion clips of motion units ( shosa ), we can synthesize Noh dance animation by composing them in a sequence based on the Noh dance notation ( katatsuke ). However, it is difficult for researchers and learners of Noh dance to utilize existing animation systems to create such animations. The purpose of this research is to develop an easy-to-use authoring system for Noh dance animation. In this paper, we introduce the design, implementation, and evaluation of our system. To solve the problems of existing animation systems, we employ our smart motion synthesis technique to compose motion units automatically. We improved the motion synthesis method by enhancing the algorithms for detecting body orientation and constraints between the foot and ground to handle Noh dance motions correctly. We classify motion units as either pattern units, which are specific forms of motion, represented as shot motion clips, or locomotion units, generated on the fly to denote movement towards a specific position or direction. To handle locomotion-type motion units, we implemented a module to generate walking motion based on a given path. We created several Noh dance animations using this system, which was evaluated through a series of experiments. We also conducted a user test to determine the usefulness of our system for learners of Noh dance.
ISSN:0178-2789
1432-2315
DOI:10.1007/s00371-013-0839-8