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[15] Ghosh, B.K., Inaba, H., Takahashi, S.: Identification of riccati dynamics under perspec-
tive and orthographic observations. IEEE Transactions on Automatic Control 45(7),
1267-1278 (2000)
[16] Hartley, R., Zisserman, A.: Multiple View Geometry. Cambridge University Press,
Cambridge (2003)
[17] Hartley, R., Zisserman, A.: Multiple View Geometry in Computer Vision. Cambridge
University Press, Cambridge (2003)
[18] Hu, G., Aiken, D., Gupta, S., Dixon, W.: Lyapunov-Based Range Identification For
Paracatadioptric Systems. IEEE Transactions on Automatic Control 53(7), 1775-1781
(2008)
[19] Hutchinson, S., Hager, G., Corke, P.: A tutorial on visual servo control. IEEE Trans.
Robot. Automat. 12(5), 651-670 (1996)
[20] Jankovic, M., Ghosh, B.: Visually guided ranging from observations points, lines and
curves via an identifier based nonlinear observer. Systems and Control Letters 25(1),
63-73 (1995)
[21] Kahl, F.: Multiple view geometry and the
l
∞
-norm. In: International Conference on
Computer Vision, pp. 1002-1009 (2005)
[22] Kahl, F., Hartley, R.: Multiple-view geometry under the
l
∞
-norm. IEEE Transactions
on Patterm Analysis and Machine Intelligence 30(9), 1603-1617 (2008)
[23] Kano, H., Ghosh, B.K., Kanai, H.: Single camera based motion and shape estimation
using extended kalman filtering. Mathematical and Computer Modelling 34, 511-525
(2001)
[24] Karagiannis, D., Astolfi, A.: A new solution to the problem range identification in per-
spective vision systems. IEEE Trans. Automat. Contr. 50, 2074-2077 (2005)
[25] Khalil, H.: Adaptive Output Feedback Control of Nonlinear Systems Represented by
Input-Output Models. IEEE Transactions on Automatic Control 41(2), 177 (1996)
[26] Khalil, H.K.: Nonlinear Systems, 3 edn. Prentice Hall, New Jersey (2002)
[27] Lowe, D.G.: Distinctive image feature from scale-invariant keypoints. Int. J. Computer
Vision 60, 91-110 (2004)
[28] Ma, L., Cao, C., Hovakimayan, N., Dixon, W.E., Woolsey, C.: Range identification in
the presence of unknown motion parameters for perspective vision systems. In: Amer-
ican Controls Conference, New York City, USA, pp. 972-977 (2007)
[29] Ma, Y., Soatto, S., Kosecka, J., Sastry, S.: An Invitation to 3-D Vision. Springer, Hei-
delberg (2004)
[30] Matthies, L., Kanade, T., Szeliski, R.: Kalman filter-based algorithms for estimating
depth from image sequences. Int. J. Computer Vision 3, 209-236 (1989)
[31] Oliensis, J.: A critique of structure-from-motion algorithms. Computer Vision and Im-
age Understanding 80, 172-214 (2000)
[32] Oliensis, J.: Exact two-image structure from motion. IEEE Transactions on Patterm
Analysis and Machine Intelligence 24(12), 1618-(2002)
[33] Oliensis, J., Hartley, R.: Iterative extensions of the strum/triggs algorithm: convergence
and nonconvergence. IEEE Transactions on Patterm Analysis and Machine Intelli-
gence 29(12), 2217-2233 (2007)
[34] Quian, G., Chellappa, R.: Structure from motion using sequential monte carlo methods.
International Journal of Computer Vision 59, 5-31 (2004)
[35] Ramalingam, S., Lodha, S., Sturm, P.: A generic structure-from-motion framework.
Computer Vision and Image Understanding 103(3), 218-228 (2006)
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