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Publications

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28 results

2003

  • Abolghasem A and Grafarend EFinite Element Analysis of Quasi-Static Earthquake Displacement Fields Observed by GPS”. In: Journal of Geodesy 77 (9), pp. 529–536. [bibtex] [doi]
  • Awange J and Grafarend EClosed Form Solution of the Overdetermined Nonlinear 7 Parameter Datum Transformation”. In: Allgemeine Vermessungs-Nachrichten 110, pp. 130–149. [bibtex] [url]
  • Awange J and Grafarend EExplicit Solution of the Overdetermined Three-Dimensional Resection Problem”. In: Journal of Geodesy 76 (11), pp. 605–616. [bibtex] [doi]
  • Awange J and Grafarend EPolynomial Optimization of the 7-Parameter Datum Transformation Problem when Only Three Stations in Both Systems are Given”. In: Zeitschrift für Vermessungswesen 128 (4), pp. 266–270. [bibtex] [url]
  • Awange J and Grafarend EMultipolynomial Resultant Solution of the 3D Resection Problem (P4P)”. In: Bollettino di Geodesia e Scienze Affini LXII, pp. 79–102. [bibtex]
  • Awange J and Grafarend EGroebner-Basis Solution of the Three-Dimensional Resection Problem (P4P)”. In: Journal of Geodesy 77 (5), pp. 327–337. [bibtex] [doi]
  • Awange J, Fukuda Y, Takemoto S, Ateya I and Grafarend ERanging Algebraically With More Observations Than Unknowns”. In: Earth Planets Space 55, pp. 387–394. [bibtex] [doi]
  • Awange J, Grafarend E and Fukuda YClosed Form Solution of the Triple Three-Dimensional Intersection Problem”. In: Zeitschrift für Vermessungswesen 128 (6), pp. 395–402. [bibtex] [url]
  • Awange J, Grafarend E, Fukuda Y and Takemoto SResultants approach to the triple three-dimensional intersection problem”. In: Journal of the Geodetic Society of Japan 49 (4), pp. 243–256. [bibtex] [url]
  • Awange J, Grafarend E, Fukuda Y and Takemoto SDirect Polynomial Approach to Nonlinear Distance (Ranging) Problems”. In: Earth Planets Space 55 (5), pp. 231–241. [bibtex] [doi]
  • Borkowski A and Keller WModelling of Irregularly Sampled Surfaces by two-dimensional Snakes”. In: Journal of Geodesy 77 (9), pp. 543–553. [bibtex] [doi]
  • Grafarend EA Closed Form Representation of Somigliana-Pizzetti Gravity”. 218. Department of Geodesy and Geomatics Engineering, University of New Brunswick. [bibtex]
  • Grafarend E and Awange JNonlinear analysis of the three-dimensional datum transformation [conformal group C7(3)]”. In: Journal of Geodesy 77 (1–2), pp. 66–76. [bibtex] [doi]
  • Grafarend E and Martinec ZComments on “Solution of the Dirichlet and Stokes exterior boundary problems for the Earth's ellipsoid” by V.V. Brovar, Z.S. Kopeikina, M.V. Pavlova Journal of Geodesy (2001) 74: 767–772”. In: Journal of Geodesy 77 (5), pp. 357–360. [bibtex] [doi]
  • Grafarend E and Voosoghi BIntrinsic Deformation Analysis of the Earth's Surface Based on Displacement Fields Derived from Space Geodetic Measurements. Case Studies: Present-Day Deformation Patterns of Europe and of the Mediterranean Area (ITRF Data Sets)”. In: Journal of Geodesy 77 (5), pp. 303–326. [bibtex] [doi]
  • Grafarend E. W., Krumm F. W., Schwarze V. S., eds. “Geodesy – The Challenge of the 3rd Millenium”. pp. 473. Springer-Verlag Berlin Heidelberg. [bibtex] [doi]
  • Lou L and Grafarend EGPS Integer Ambiguity Resolution by Various Decorrelation Methods”. In: Zeitschrift für Vermessungswesen 128 (3), pp. 203–210. [bibtex] [url]
  • Marinkovic P, Grafarend E and Reubelt TSpace Gravity Spectroscopy: The Benefits of Taylor-Karman Structured Criterion Matrices”. In: Advances in Geosciences 1, pp. 113–120. [bibtex] [doi]
  • Novák PGeoid determination using one-step integration”. In: Journal of Geodesy 77 (3), pp. 193–206. [bibtex] [doi]
  • Novák POptimal model for geoid determination from airborne gravity”. In: Studia Geophysica et Geodaetica 47 (1), pp. 1–36. [bibtex] [doi]
  • Novák P, Bruton A, Bayoud F, Kern M and Schwarz KOn numerical and data requirements for topographical reduction of airborne gravity in geoid determination and resource exploration”. In: Bollettino di Geodesia e Scienze Affini LXII, pp. 103–124. [bibtex]
  • Novák P, Kern M, Schwarz K and Heck BEvaluation of band-limited topographical effects in airborne gravimetry”. In: Journal of Geodesy 76 (11), pp. 597–604. [bibtex] [doi]
  • Novák P, Kern M, Schwarz K, Sideris M, Heck B, Ferguson S, Hammada Y and Wei MOn geoid determination from airborne gravity”. In: Journal of Geodesy 76 (9), pp. 510–522. [bibtex] [doi]
  • Novák P., Šimek J. and Kostelecký J.A detailed gravimetric quasi-geoid model VUGTK 2002 for Central Europe”. In: Gravity and Geoid 2002. Reviewed Proc. of the 3rd Meeting of the International Gravity and Geoid Commission. Tziavos I. N., ed., pp. 150–155. [bibtex]
  • Reubelt T, Austen G and Grafarend EHarmonic Analysis of the Earth's Gravitational Field by Means of Semi-Continuous Ephemerides of a Low Earth Orbiting GPS-Tracked Satellite. Case Study: CHAMP”. In: Journal of Geodesy 77 (5), pp. 257–278. [bibtex] [doi]
  • Reubelt T, Austen G and Grafarend ESpace Gravity Spectroscopy – Determination of the Earth's Gravitational Field by Means of Newton Interpolated LEO Ephemeris. Case Studies on Dynamic (CHAMP Rapid Science Orbit) and Kinematic Orbits”. In: Advances in Geosciences 1, pp. 127–135. [bibtex] [doi]
  • Tenzer R, Vanícek P and Novák PFar-zone contributions to topographical effects in the Stokes-Helmert method of the geoid determination”. In: Studia Geophysica et Geodaetica 47 (3), pp. 467–480. [bibtex] [doi]
  • Vanícek P, Novák P, Craymer M and Pagiatakis SOn the correct determination of transformation parameters of the horizontal geodetic datum”. In: Geomatica 56 (4), pp. 329–340. [bibtex] [url]