Global Positioning System Reference
In-Depth Information
Draper, N.R. & Smith, H. (1966).
Applied Regression Analysis
, John Wiley &Sons, Inc., USA
Erol, B. (2007).
Investigations on Local Geoids for Geodetic Applications,
PhD Thesis, Institute of
Science and Technology, Istanbul Technical University, Turkey
Erol, B. (2011). An automated height transformation using precise geoid models.
Scientific
Research and Essays,
Vol.6, No.6, pp. 1351-1363
Erol, B. & Çelik, R.N. (2004). Precise Local Geoid Determination to Make GPS Technique
More Effective in Practical Applications of Geodesy,
Proceedings of FIG Working
Week 2004
, Athens, Greece, April 2004, 30.07.2011, Available from
http://www.fig.net/pub/athens/papers/ts07/ts07_3_erol_celik.pdf
Erol, B. & Çelik, R.N. (2006). Modelling Local GPS/Levelling Geoid: Assessment of Inverse
Distance Weighting and Geostatistical Kriging Methods.
Geoinformation Science
Journal,
Vol.6, No.1, pp. 78-83
Erol, B., Erol, S. & Çelik, R.N. (2005). Precise Geoid Model Determination Using GPS
Technique and Geodetic Applications, In:
Proceedings 2nd International Conference on
Recent Advances in Space Technologies
, S. Kurnaz, F. Ince, S. Inbasioglu, S. Basturk
(Eds.), pp.395-399, IEEE, Istanbul, Turkey, doi: 10.1109/RAST.2005.1512599
Erol, B., Erol, S. & Çelik, R.N. (2008). Height transformation using regional geoids and
GPS/levelling in Turkey.
Survey Review,
Vol.40, No.307 pp. 2-18
Erol, B., Sideris, M.G. & Çelik, R.N. (2009). Comparison of Global Geopotential Models from
the CHAMP and GRACE Missions for Regional Geoid Modeling in Turkey.
Studia
Geopysica et Geodaetica,
Vol.53 pp.419-441.
Featherstone, W.E. (1998). Do we need a gravimetric geoid or a model of the base of the
Australian Height Datum to transform GPS heights?.
The Australian Surveyor,
Vol.43, No.4 pp. 273-280
Featherstone, W.E. (2001). Absolute and relative testing of gravimetric geoid models using
Global Positioning System and orthometric height data.
Computers & Geosciences,
Vol.27, No.7 pp. 807-814 doi:10.1016/S0098-3004(00)00169-2
Featherstone, W.E., Denith, M.C. & Kirby, J.F. (1998). Strategies for the accurate
determination of orthometric heights from GPS.
Survey Review,
Vol.34, No.267, pp.
278-296
Forsberg, R. (1994). Terrain Effects in Geoid Computations, In:
Lecture Notes - International
School for the Determination and Use of the Geoid
, 101−134, IGeS, DIIAR - Politecnico
di Milano, Italy
Fotopoulos, G. (2003).
An Analysis on the Optimal Combination of Geoid, Orthometric and
Ellipsoidal Height Data,
PhD Thesis, UCGE Report 20185, Geomatics Engineering
Department, University of Calgary, Canada
Fotopoulos, G. (2005). Calibration of geoid error models via a combined adjustment of
ellipsoidal, orthometric and gravimetric geoid height data.
Journal of Geodesy,
Vol.79, No.1-3, pp. 111-123
Fotopoulos, G., Kotsakis, C. & Sideris, M.G. (2001). How accurately can we determine
orthometric height differences from GPS and geoid data?.
Journal of Surveying
Engineering,
Vol.129, No.1, pp. 1-10
Förste, C., Bruinsma, S., Shako, R., Marty, J.C., Flechtner, F., Abrikosov, O., Dahle, C.,
Lemoine, J.M., Neumayer, H., Biancale, R., Barthelmes, F., König, R. & Balmino, G.
(2011). EIGEN-6 - A new combined global gravity field model including GOCE
data from the collaboration of GFZ-Potsdam and GRGS-Toulouse.
Geophysical
Research Abstracts
, Vol.13
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