Application of least-squares fitting of ellipse and hyperbola for two dimensional data

Application of the least-square method of ellipse and hyperbola for two-dimensional data has been applied to analyze the spatial continuity of coal deposits in the mining field, by using the fitting method introduced by Fitzgibbon, Pilu, and Fisher in 1996. This method uses 4 a 0 a 2 − a 1 2 = 1 as...

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Bibliographic Details
Published in:Journal of physics. Conference series 2018-01, Vol.948 (1), p.12069
Main Authors: Lawiyuniarti, M P, Rahmadiantri, E, Alamsyah, I M, Rachmaputri, G
Format: Article
Language:English
Subjects:
Calorific value
Coal mines
Elliptic fitting
Hyperbolas
Least squares
Physics
Singular value decomposition
Two dimensional analysis
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Summary:Application of the least-square method of ellipse and hyperbola for two-dimensional data has been applied to analyze the spatial continuity of coal deposits in the mining field, by using the fitting method introduced by Fitzgibbon, Pilu, and Fisher in 1996. This method uses 4 a 0 a 2 − a 1 2 = 1 as a constrain function. Meanwhile, in 1994, Gander, Golub and Strebel have introduced ellipse and hyperbola fitting methods using the singular value decomposition approach. This SVD approach can be generalized into a three-dimensional fitting. In this research we, will discuss about those two fitting methods and apply it to four data content of coal that is in the form of ash, calorific value, sulfur and thickness of seam so as to produce form of ellipse or hyperbola. In addition, we compute the error difference resulting from each method and from that calculation, we conclude that although the errors are not much different, the error of the method introduced by Fitzgibbon et al is smaller than the fitting method that introduced by Golub et al.
ISSN:1742-6588
1742-6596
DOI:10.1088/1742-6596/948/1/012069