Estimating the fundamental matrix by transforming image points in projective space (2001) [9 citations — 0 self]

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by Zhengyou Zhang, Charles Loop

Computer Vision and Image Understanding

http://www.research.microsoft.com/users/zhang/Papers/ZhangLoopCVIU-01.pdf

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@ARTICLE{Zhang01estimatingthe,
    author = {Zhengyou Zhang and Charles Loop},
    title = {Estimating the fundamental matrix by transforming image points in projective space},
    journal = {Computer Vision and Image Understanding},
    year = {2001},
    volume = {82},
    pages = {174--180}
}

Abstract:

This paper proposes a novel technique for estimating the fundamental matrix by transforming the image points in projective space. We therefore only need to perform nonlinear optimization with one parameterization of the fundamental matrix, rather than considering 36 distinct parameterizations as in previous work. We also show how to preserve the characteristics of the data noise model from the original image space. Key Words: fundamental matrix, epipolar geometry, projective transformation 1.

Citations

1143	Matrix Computations – Golub, Loan - 1989
377	A robust technique for matching two uncalibrated images through the recovery of the unknown epipolar geometry – Zhang, Deriche, et al.
221	Determining the epipolar geometry and its uncertainty: A review – Zhang - 1998
192	The fundamental matrix: Theory, algorithms, and stability analysis – Luong, Faugeras - 1996
149	defence of the 8-point algorithm – In - 1995
50	Matrice Fondamentale et Calibration Visuelle sur l’environnement: Vers use plus grande autonomie des systemes robotiques – Luong - 1992
42	Characterizing the Uncertainty of the Fundamental Matrix – Csurka, Zeller, et al. - 1997
27	Robust detection of degenerate configurations for the fundamental matrix – Torr, Maybank, et al. - 1996

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