TY - JOUR
N2 - A new method to transform from Cartesian to geodetic coordinates is presented. It is based on the solution of a system of nonlinear equations with respect to the coordinates of the point projected onto the ellipsoid along the normal. Newton’s method and a modification of Newton’s method were applied to give third-order convergence. The method developed was compared to some well known iterative techniques. All methods were tested on three ellipsoidal height ranges: namely, (-10 – 10 km) (terrestrial), (20 – 1000 km), and (1000 – 36000 km) (satellite). One iteration of the presented method, implemented with the third-order convergence modified Newton’s method, is necessary to obtain a satisfactory level of accuracy for the geodetic latitude ( σ φ < 0.0004”) and height ( σ h < 10 − 6 km, i.e. less than a millimetre) for all the heights tested. The method is slightly slower than the method of Fukushima (2006) and Fukushima’s (1999) fast implementation of Bowring’s (1976) method.
L1 - http://so.czasopisma.pan.pl/Content/98324/PDF/art05.pdf
L2 - http://so.czasopisma.pan.pl/Content/98324
PY - 2011
IS - No 2
KW - Cartesian and geodetic coordinates
KW - rotational ellipsoid
KW - Newton’s method
KW - coordinate transformation
A1 - Ligas, Marcin
A1 - Banasik, Piotr
PB - Commitee on Geodesy PAS
VL - vol. 60
T1 - Conversion between Cartesian and geodetic coordinates on a rotational ellipsoid by solving a system of nonlinear equations
DA - 2011
UR - http://so.czasopisma.pan.pl/dlibra/publication/edition/98324
T2 - Geodesy and Cartography
DOI - 10.2478/v10277-012-0013-x
ER -