The Effect of Focal Distance, Age, and Brightness on Near-Field Augmented Reality Depth Matching

Preprint English OPEN
Singh, Gujot; Ellis, Stephen R.; Swan II, J. Edward;
(2017)

Many augmented reality (AR) applications operate within near-field reaching distances, and require matching the depth of a virtual object with a real object. The accuracy of this matching was measured in three experiments, which examined the effect of focal distance, ag... View more
  • References (50)
    50 references, page 1 of 5

    [1] M. Kersten-Oertel, P. Jannin, and D. L. Collins, “The State of the Art of Visualization in Mixed Reality Image Guided Surgery,” Comput. Medical Imaging and Graphics, vol. 37, no. 2, pp. 98-112, 2013.

    [2] D. Curtis, D. Mizell, P. Gruenbaum, and A. Janin, “Several devils in the details: Making an AR application work in the airplane factory,” in Proc. of Intern. Workshop on Augmented Reality (IWAR), 1998, pp. 47-60.

    [3] S. J. Henderson and S. Feiner, “Evaluating the benefits of augmented reality for task localization in maintenance of an armored personnel carrier turret,” in Intern. Symp. on Mixed and Augmented Reality (ISMAR), 2009, pp. 135-144.

    [4] P. J. Edwards, A. P. King, C. R. Maurer Jr., D. A. de Cunha, D. J. Hawkes, D. L. G. Hill, R. P. Gaston, M. R. Fenlon, A. Jusczyzck, A. J. Strong, C. L. Chandler, and M. J. Gleeson, “Design and evaluation of a system for microscope-assisted guided interventions (MAGI),” IEEE Trans. on Medical Imaging, vol. 19, no. 11, pp. 1082- 1093, 2000.

    [5] R. Krempien, H. Hoppe, L. Kahrs, S. Daeuber, O. Schorr, G. Eggers, M. Bischof, M. W. Munter, J. Debus, and W. Harms, “ProjectorBased Augmented Reality for Intuitive Intraoperative Guidance in Image-Guided 3D Interstitial Brachytherapy,” International Journal of Radiation Oncology Biology Physics, vol. 70, no. 3, pp. 944-952, Mar. 2008.

    [6] J. E. Swan II, G. Singh, and S. R. Ellis, “Matching and reaching depth judgments with real and augmented reality targets,” IEEE Trans. on Visualization and Computer Graphics, vol. 21, no. 11, pp. 1289-1298, 2015.

    [7] J. L. Gabbard, D. G. Mehra, and J. E. Swan II, “Effects of AR display context switching and focal distance switching on human performance,” article in submission, 2017.

    [8] G. Singh, “Near-Field Depth Perception in Optical See-Through Augmented Reality,” Ph.D. dissertation, Mississippi State University, Aug. 2013.

    [9] J. E. Cutting and P. M. Vishton, “Perceiving layout and knowing distances: The integration, relative potency, and contextual use of different information about depth,” in Handbook of Perception and Cognition: Perception of Space and Motion, W. Epstein and S. Rogers, Eds. Academic Press, 1995, vol. 5, pp. 69-117.

    [10] S. Nagata, “How to Reinforce Perception of Depth in Single TwoDimensional Pictures,” in Pictorial Communication in Virtual and Real Environments, S. R. Ellis, M. K. Kaiser, and A. J. Grunwald, Eds. London: Taylor & Francis, 1989, pp. 527-545.

  • Related Organizations (1)
  • Metrics