S06 Referenced Literature === Anderson, F., Grossman, T., Matejka, J., & Fitzmaurice, G. (2013). YouMove (pp. 311–320). Presented at the the 26th annual ACM symposium, New York, New York, USA: ACM Press. doi:10.1145/2501988.2502045 Azuma, R. T. (1997). A survey of augmented reality. Presence-Teleoperators and Virtual Environments, 6(4), 355– 385. Bichlmeier, C., Wimme, F., Heining, S. M., & Navab, N. (2007). Contextual anatomic mimesis hybrid in-situ visualization method for improving multi-sensory depth perception in medical augmented reality, 129–138. Blaine Bell, S. F. T. H. (2002). View Management for Virtual and Augmented Reality. Di Luca, M., Knoerlein, B., Ernst, M. O., & Harders, M. (2011). Effects of visual-haptic asynchronies and loading- unloading movements on compliance perception. Brain Research Bulletin, 85(5), 245–259. doi:10.1016/j.brainresbull.2010.02.009 Feldman, A., Tapia, E. M., Sadi, S., Maes, P., & Schmandt, C. (2005). ReachMedia: On-the-move interaction with everyday objects, 52–59. Frank Biocca, A. T. C. O. A. X. F. (2005). The Ominidirectional Attention Funnel: A Dynamic 3D Cursor for Mobile Augmented Reality Systems, 1–8. Gabbard, J. L., Swan, J. E., Hix, D., Schulman, R. S., Lucas, J., & Gupta, D. (2005a). An empirical user-based study of text drawing styles and outdoor background textures for augmented reality, 11–18. Gabbard, J. L., Swan, J. E., Hix, D., Schulman, R. S., Lucas, J., & Gupta, D. (2005b). An empirical user-based study of text drawing styles and outdoor background textures for augmented reality, 11–18. Heller, F., Krämer, A., & Borchers, J. (2014). Simplifying orientation measurement for mobile audio augmented reality applications (pp. 615–624). Presented at the the 32nd annual ACM conference, New York, New York, USA: ACM Press. doi:10.1145/2556288.2557021 Henderson, S. J., & Feiner, S. K. (2011). Augmented reality in the psychomotor phase of a procedural task, 191– 200. Herling, J., & Broll, W. (2010). Advanced self-contained object removal for realizing real-time diminished reality in unconstrained environments, 207–212. Kalkofen, D., Mendez, E., & Schmalstieg, D. (2007). Interactive focus and context visualization for augmented reality, 1–10. Livingston, M. A., Swan, J. E., II, Gabbard, J. L., Höllerer, T. H., Hix, D., Julier, S. J., et al. (2003). Resolving multiple occluded layers in augmented reality, 56. Mononen, K. (2007). The effects of augmented feedback on motor skill learning in shooting: A feedback training intervention among inexperienced rifle shooters. Morrison, A., Oulasvirta, A., Peltonen, P., Lemmela, S., Jacucci, G., Reitmayr, G., et al. (2009). Like bees around the hive: a comparative study of a mobile augmented reality map, 1889–1898. Reitmayr, G., & Schmalstieg, D. (2003). Location based applications for mobile augmented reality. dl.acm.org (pp. 65–73). Australian Computer Society, Inc. Sodhi, R., Benko, H., & Wilson, A. (2012). Lightguide: projected visualizations for hand movement guidance, 179– 188. Sutherland, I. (n.d.). The Ultimate Display, 1–2. Zhang, J., Lip, C. W., Ong, S. K., & Nee, A. Y. C. (n.d.). A multiple sensor-based shoe-mounted user interface designed for navigation systems for the visually impaired. Presented at the 5th International ICST Conference on Wireless Internet, IEEE. doi:10.4108/ICST.WICON2010.8516