Abstract
In the current work are discussed a series of communicability techniques to increase scientific visualization in the case of orthodontics, in an off-line interactive system. This interactive system can be defined as a kind of guideline that has survived the passing of time. Additionally, the design categories are described that have allowed to draw up a high quality system with scarce financial resources, since the software and the hardware currently used can be regarded as of domestic use. It is also made apparent how a simple information structure, joined to the dynamic and static means, can facilitate the diffusion of science among the inexperienced users. Finally, a brief state of the art is made of scientific visualization.
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References
Dougherty, M., et al.: Unifying Biological Image Formats with HDF5. Communications of the ACM 52(10), 42–47 (2009)
Rubin, D., et al.: Annotation and Image Markup: Accessing and Interoperating with the Semantic Content in Medical Imaging. IEEE Intelligent Systems 24(1), 57–65 (2009)
Weitzel, M., et al.: A Web 2.0 Model for Patient-Centered Health Informatics Applications. IEEE Computer 43(7), 43–50 (2010)
Saltz, J., et al.: e-Science, caGrid, and Transalational Biomedical Research. IEEE Computer 41(11), 58–66 (2008)
Kari, L., Rozenberg, G.: The Many Facets of Natural Computing. Communications of ACM, 72–83 (2008)
Wilson, K.: Grand Challenges to Computational Science. Future Generation Computer Systems 5(2-3), 171–189 (1989)
Focardi, S.: La simulazione della realtà. Editrice il Rostro, Milano (2007)
Cipolla-Ficarra, F.: Quality and Communicability for Interactive Hypermedia Systems: Concepts and Practices for Design. IGI Global, Hershey (2010)
Scharver, C., et al.: Designing Cranial Implants in a Haptic Augmented Reality Environment. Communications of the ACM 47(8), 32–39 (2004)
Hunter, P., et al.: Multiscale Modeling: Physiome Project Standards, Tools, and Databases. IEEE Computer 39(11), 48–53 (2006)
Ackroyd, K., et al.: Scientific Software Development at a Research Facility. IEEE Software 25(4), 44–51 (2008)
Barrow, J.: Le immagini della scienza, Mondadori, Milano (2009)
Minnery, B., Fine, M.: Neuroscience and the Future of Human-Computer Interaction. Interactions 16(2), 70–75 (2009)
Digital Illusion CD-ROM: Técnica de Anclaje Diverso en Ortodoncia, Matrust, Barcelona (1995)
Eco, U.: Apocalittici e integrati, Bompiani, Milano (2001)
Apple: Macintosh Human Interface Guidelines. Addison-Wesley, Massachusetts (1992)
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Cipolla Ficarra, F.V., Richardson, L. (2011). Photography and Computer Animation for Scientific Visualization: Lessons Learned. In: Cipolla Ficarra, F.V., de Castro Lozano, C., Pérez Jiménez, M., Nicol, E., Kratky, A., Cipolla-Ficarra, M. (eds) Advances in New Technologies, Interactive Interfaces, and Communicability. ADNTIIC 2010. Lecture Notes in Computer Science, vol 6616. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-20810-2_11
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DOI: https://doi.org/10.1007/978-3-642-20810-2_11
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