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H.A. Beyer.
Geometric and Radiometric Analysis of a CCD-Camera Based Photogrammetric Close-Range System.
PhD thesis, ETH-Zurich, 1992.

P. Brand, R. Mohr, and Ph. Bobet.
Distorsion optique : correction dans un modèle projectif.
In Actes du 9ème Congrès AFCET de Reconnaissance des Formes et Intelligence Artificielle, Paris, France, pages 87-98, Paris, January 1994.

O. Faugeras.
What can be seen in three dimensions with an uncalibrated stereo rig?
In G. Sandini, editor, Proceedings of the 2nd European Conference on Computer Vision, Santa Margherita Ligure, Italy, pages 563-578. Springer-Verlag, May 1992.

O. Faugeras.
Three-Dimensional Computer Vision - A Geometric Viewpoint.
Artificial intelligence. M.I.T. Press, Cambridge, MA, 1993.

O. Faugeras.
Stratification of three-dimensional vision: Projective, affine and metric representations.
Journal of the Optical Society of America, 12:465-484, 1995.

J. Forgarty.
Invariant Theory.
Benjamin, New York, USA, 1969.

P. Gros.
How to use the cross ratio to compute 3D invariants from two images.
In J.L. Mundy, A. Zisserman, and D. Forsyth, editors, Proceeding of the DARPA-ESPRIT workshop on Applications of Invariants in Computer Vision, Azores, Portugal, Lecture Notes in Computer Science, pages 107-126. Springer-Verlag, 1993.

R. Hartley.
In defence of the 8-point algorithm.
In Proceedings of the 5th International Conference on Computer Vision, Cambridge, Massachusetts, USA, pages 1064-1070, June 1995.

R. Hartley, R. Gupta, and T. Chang.
Stereo from uncalibrated cameras.
In Proceedings of the Conference on Computer Vision and Pattern Recognition, Urbana-Champaign, Illinois, USA, pages 761-764, 1992.

R.I. Hartley.
Euclidean reconstruction from uncalibrated views.
In Proceeding of the DARPA-ESPRIT workshop on Applications of Invariants in Computer Vision, Azores, Portugal, pages 187-202, October 1993.

K. Kanatani.
Geometric Computation for Machine Vision.
Oxford Science Publications, Oxford, 1993.

Q.T. Luong and O. Faugeras.
The fundamental matrix: Theory, algorithms and stability analysis.
International Journal of Computer Vision, 17(1):43-76, 1996.

S.J. Maybank and O.D. Faugeras.
A theory of self calibration of a moving camera.
International Journal of Computer Vision, 8(2):123-151, 1992.

P. Meer, S. Ramakrishna, and R. Lenz.
Correspondence of coplanar features through p2-invariant representations.
In Proceedings of the 12th International Conference on Pattern Recognition, Jerusalem, Israel, pages A-196-202, 1994.

R. Mohr, B. Boufama, and P. Brand.
Understanding positioning from multiple images.
Artificial Intelligence, (78):213-238, 1995.

T. Moons, L. Van Gool, M. Van Diest, and E. Pauwels.
Affine reconstruction from perspective image pairs.
In Proceeding of the DARPA-ESPRIT workshop on Applications of Invariants in Computer Vision, Azores, Portugal, pages 249-266, October 1993.

L. Morin.
Quelques contributions des invariants projectifs à la vision par ordinateur.
PhD thesis, Institut National Polytechnique de Grenoble, January 1993.

J.L. Mundy and A. Zisserman, editors.
Geometric Invariance in Computer Vision.
MIT Press, Cambridge, Massachusetts, USA, 1992.

J.L. Mundy and A. Zisserman, editors.
Proceedings of the Second ESPRIT - ARPA Workshop on Applications of Invariance on Computer Vision, Ponta Delagada, Azores, Portugal, October 1993.

W.H. Press and B.P. Flannery and S.A. Teukolsky and W.T. Vetterling.
Numerical Recipes in C. Cambridge University Press, 1988.

L. Robert and O. Faugeras.
Relative 3d positionning and 3D convex hull computation from a weakly calibrated stereo pair.
In Proceedings of the 4th International Conference on Computer Vision, Berlin, Germany, pages 540-544, May 1993.

C.A. Rothwell.
Object Recognition Through Invariant Indexing.
Oxford University Press, 1995.

J.G. Semple and G.T. Kneebone.
Algebraic Projective Geometry.
Oxford Science Publication, 1952.

C.C. Slama, editor.
Manual of Photogrammetry, Fourth Edition.
American Society of Photogrammetry and Remote Sensing, Falls Church, Virginia, USA, 1980.

E. Thompson.
The projective theory of relative orientation.
Photogrammetria, 23(1):67-75, 1968.

C. Tomasi and T. Kanade.
Shape and motion from image streams under orthography: A factorization method.
International Journal of Computer Vision, 9(2):137-154, 1992.

Z. Zhang, R. Deriche, O. Faugeras, and Q.T. Luong.
A robust technique for matching two uncalibrated images through the recovery of the unknown epipolar geometry.
Rapport de recherche 2273, INRIA, May 1994.

Bill Triggs