“Living Book of Anatomy (LBA) Project: See Your Insides in Motion!” by Bauer, Dicko, Palombi, Faure and Troccaz
Conference:
Experience Type(s):
Title:
- Living Book of Anatomy (LBA) Project: See Your Insides in Motion!
Organizer(s)/Presenter(s):
Description:
The complexity of human anatomy makes learning and understanding it a difficult task. Using the Embodiment Theory as foundation we present the living book of anatomy project, an AR system for teaching anatomy, specifically anatomy in motion.
References:
[1] Bauer, A., Paclet, F., Cahouet, V., Dicko, A.-H., Palombi, O., Faure, F., and Troccaz, J. 2014. Interactive visualization of muscle activity during limb movements: Towards enhanced anatomy learning. In Eurographics Workshop on Visual Computing for Biology and Medicine,(VCBM) 2014.
[2] Blum, T., Kleeberger, V., Bichlmeier, C., and Navab, N. 2012. mirracle: An augmented reality magic mirror system for anatomy education. In Virtual Reality Short Papers and Posters (VRW), 2012 IEEE, IEEE, 115–116.
[3] Borner, A., and Kirsch, S., 2015. anatomie spiegel. http://www.qwertzus.com/anatomie-spiegel/.
[4] Dicko, A.-H., Tiantian, L., Gilles, B., Kavan, L., Faure, F., Palombi, O., and Cani, M.-P. 2013. Anatomy transfer. ACM Transactions on Graphics (TOG) 32, 6, 188.
[5] Kamphuis, C., Barsom, E., Schijven, M., and Christoph, N. 2014. Augmented reality in medical education? Perspectives on medical education 3, 4, 300–311.
[6] Lusk, M. M., and Atkinson, R. K. 2007. Animated pedagogical agents: Does their degree of embodiment impact learning from static or animated worked examples? Applied cognitive psychology 21, 6, 747–764.
[7] Maitre, X., 2014. Newscientist: Digital mirror reveals what lies under your skin.
[8] Murai, A., Kurosaki, K., Yamane, K., and Nakamura, Y. 2010. Musculoskeletal-see-through mirror: Computational modeling and algorithm for whole-body muscle activity visualization in real time. Progress in Biophysics and Molecular Biology 103, 2-3, 310–317.
[9] Zhu, L., Hu, X., and Kavan, L. 2015. Adaptable anatomical models for realistic bone motion reconstruction. Comput. Graph. Forum 34, 2.
