References

[1] Milgram, P. and F. Kishino, A Taxonomy of Mixed Reality Visual Displays. IEICE Transactions on Information Systems, 1994. E77-D(12).

[2] Azuma, R.T., Recent Advances in Augmented Reality. IEEE Computer Science and Applications, 2001. 21(6): p. 34–47.

[3] Azuma, R.T., A survey of augmented reality. Presence: Teleoperator and Virtual Environments, 1977. 6(4): p. 355–385.

[4] Tuceryan, M., et al., Calibration Requirements and Procedures for a Monitor-Based Augmented Reality System. Transactions on Visualization and Computer Graphics, 1995. 1(3): p. 255–273.

[5] Vlahos, P., Composite Color Photography, United States patent 3, 158,477, Nov. 24, 1964.

[6] Vlahos, P., Electronic Composite Photography, United States patent 3,595,987, Jul. 21, 1971.

[7] Vlahos, P., Electronic Composite Photography with Color Control, United States patent 4,007,487, Feb. 8, 1977.

[8] Vlahos, P., Comprehensive Electronic Compositing System, United States patent 4, 100, 569, Jul. 11, 1978.

[9] Vlahos, P., Comprehensive Electronic Compositing System, United States patent 4, 344, 085, Aug. 10, 1982.

[10] Vlahos, P. et al., Encoded Signal Color Image Compositing, United States patent 4,409,611, Oct. 11, 1983.

[11] Vlahos, P. et al., Automated Encoded Signal Color Image Compositing, United States patent 4,589,013, May. 13, 1986.

[12] Vlahos, P. et al., Comprehensive Electronic Compositing System, United States patent 4,625,231, Nov. 25, 1986.

[13] Blinn, J.F., Compositing, Part 2: Practice. IEEE Computer Graphics and Applications, 1994. 14(6): p. 78–82.

[14] Blinn, J.F., Compositing, Part 1: Theory. IEEE Computer Graphics and Applications, 1994. 14(5): p. 83–87.

[15] Kutulakos, K.N. and J.R. Vallino, Calibration-Free Augmented Reality. IEEE Transactions on Visualization and Computer Graphics, 1998. 4(1): p. 1–20.

[16] Brinkmann, R., The Art and Science of Digital Compositing. 1994: Morgan Kaufmann.

[17] Kelly, D., Digital Compositing in Depth: The Only Guide to Post Production for Visual Effects in Film. 2002: Paraglyph Publishing.

[18] Foley, J.D.,A.V. Dam et al., Computer Graphics: Principles and Practice(2nd Ed. in C). 1995: Addison-Wesley Publishing Company.

[19] Foley, J.D.,A.V. Dam et al., Fundamentals of Interactive Computer Graphics. 1982: Addison-Wesley Publishing Company.

[20] MacIntyre, B.,E.M. Coelho, and S.J. Julier. Estimating and Adapting to Registration Errors in Augmented Reality Systems. in IEEE Virtual Reality Conference 2002. 2002. Orlando, Florida.

[21] Neumann, U. et al., Natural feature tracking for augmented reality. IEEE Transactions on Multimedia, 1999. 1(1): p. 53–64.

[22] Owen, C.B.,F. Xiao, and P. Middlin. What is the best fiducial. in The First IEEE International Augmented Reality Toolkit Workshop. 2002. Darmstadt, Germany.

[23] Rolland, J.P.,L.D. Davis, and Y. Baillot, A survey of tracking technologies for virtual environments, in Fundamentals of wearable computers and augmented reality, W. Barfield and T. Caudell, Editors. 2001, Lawrence Erlbaum, Mahwah: Mahwah, NJ. p. 67–112.

[24] Bajura, M. and U. Neumann, Dynamic registration correction in video-based augmented reality systems. IEEE Computer Graphics and Applications, 1995. 15(5): p. 52–60.

[25] Bascle, B. and R. Deriche. Region tracking through image sequences. in Int. Conf. on Computer Vision. 1995.

[26] Viola, P. and W.M.W. III, Alignment by maximization of mutual information. International Journal of Computer Vision, 1997. 24(2): p. 137–154.

[27] Brown, L.G., A survey of image registration techniques. ACM Computing Surveys, 1992. 24(4): p. 325–376.

[28] Ferrari, V.,T. Tuytelaars, and L.V. Gool. Markerless augmented reality with a real-time affine region tracker. in IEEE and ACM International Symposium on Augmented Reality (ISAR'01). 2001. New York, NY.

[29] Shi, J. and C. Tomasi. Good features to track. in IEEE Conference on Computer Vision and Pattern Recognition. 1994.

[30] Shapiro, G. and G.C. Stockman, Computer Vision. 2001, Prentice Hall.

[31] Simon, G. and M.O. Berger. A two-stage robust statistical method for temporal registration from features of various types, in ICCV'98. 1998.

[32] Berger, M.O., et al., Mixing synthetic and video images of an outdoor urban environment. Machine Vision and Applications, 1999. 11(3).

[33] Cho, Y.,J. Lee, and U. Neumann. Multi-ring Color Fiducial Systems and An Intensity-Invariant Detection Method for Scalable Fiducial Tracking Augmented Reality, in IEEE International Workshop on Augmented Reality. 1998.

[34] ARToolKit, http://www.hit1.washington.edu/research/shared_space/.

[35] Jiang, B. and U. Neumann. Extendible tracking by line auto calibration. in IEEE and ACM International Symposium on Augmented Reality. 2001. New York, NY.

[36] Azuma, R., et al., Tracking in unprepared environments for augmented reality systems. IEEE Transactions on Computer Graphics, 1999.

[37] Beauchemin, S.S. and J.L. Barron, The computation of optical flow. ACM Computing Surveys, 1995. 27(3).

[38] Smith, A.R. and J.F. Blinn. Blue Screen Matting. in SIGGRAPH '96. 1996.

[39] Rademacher, P. et al. Measuring the perception of visual realism in images. in 12th Eurographics Workshop on Rendering. 2001. London.

[40] Crow, F.C., The Aliasing Problem in Computer-Generated Shaded Images. Communications of ACM, 1977. 20(11): p. 799–905.

[41] Bresenham, J.E., Algorithm for computer control of a digital plotter. IBM Systems Journal, 1965. 4(1): p. 25–30.

[42] Pitteway, M.L.V. and D.J. Watkison, Bresenham's Algorithm with Gray Scale. Communications of the ACM, 1981. 23: p. 625–626.

[43] Catmull, E. A Hidden-Surface Algorithm With Anti-Aliasing. in Proceedings of the 5th annual conference on Computer Graphics and Interactive Techniques. 1978.

[44] Crow, F.C., A Comparison of Antialiasing Techniques. IEEE Computer Graphics & Applications, 1981. 1(1): p. 40–48.

[45] Francis. S.Hill, J., Computer Graphics Using Open GL. 2^nd ed. 2000: Prentice Hall.

[46] Wojdala, A., Challenges of Virtual Set Technology. IEEE Multimedia, 1998. 5(1): p. 50–57.

[47] Kogler, R.A., Virtual Set Design. IEEE Multimedia, 1998. 5(1): p. 92–96.

[48] Gibbs, S.,C. Arapis, and C. Breiteneder, Virtual Studio: An Overview. IEEE Multimedia, 1998. 5(1): p. 18–35.

[49] Gloudemans, J.R., et al. Blending a Graphics, United States patent 6,229,550.

[50] Rosser, R.J. and M. Leach. Television displays having selected inserted indicia, United States patent 5,264,933, November 23, 1993.