prof. Ing. Pavel Novák, PhD.

Technical reports :

  • Novak P, Hajkova J, Kadlec M, Valko M (2011). Gravimetric surveying and investigations of the Krimich waste bank. Contract report for the West Bohemian Mines, Czech Republic.
  • Novak P (2010). The role and activities of FIG, Czech participation. Czech Union of Surveyors and Cartographers: 6-10, Brno, ISBN 978-80-02-02278-7.
  • Novak P (2010). On determination of a regional vertical datum by combination of EGM, local gravity and GPS/leveling data. Proceedings of FIG Congress 2010 "Facing the Challenges - Building the Capacity": 1-11.
  • Sneeuw N, Novak P (2009). ICCT midterm report to the IAG. Travaux of the International Association of Geodesy. September 2009.
  • Klokocnik J, Bezdek A, Gruber C, Kostelecky J, Novak P, Pesek I, Sebera J, Vondrak J (2009). GOCE - specific tasks on fine gravity field structure of the Earth. Progress report of the PECS project C98056 (2009), ESA.
  • Klokocnik J, Bezdek A, Gruber C, Kostelecky J, Novak P, Pesek I, Vondrak J (2008). GOCE - specific tasks on fine gravity field structure of the Earth. Progress report of the PECS project C98056 (2008), ESA.
  • Novak P, Klokocnik J, Kostelecky J (2007). Testing the global geopotential model EGM07a with GPS/leveling data over the territory of the Czech Republic. Report for the IAG Special Working Group 2.2: Evaluation of Global Earth Gravity Models.
  • Novak P (2007). Determination of precise geoid and quasigeoid models for the territory of Central Europe. Contract report for the Czech Science Foundation, Project 205/05/2777.
  • Kabelac J, Novak P (2006). Geodesy. Lecture notes, Department of Mathematics, University of West Bohemia, Plzen, 1-173.
  • Novak P (2004). The GRACE processor for spherical harmonic analysis of the temporal variations of the geopotential. Contract report for the German government, Geodetic Institute, Stuttgart University.
  • Vanicek P, Tenzer R, Janak J, Najafi M, Novak P, Huang J (2003). SHGEO Software Package for precise geoid determination using Stokes-Helmert approach modified for no-topography space. Department of Geodesy and Geomatics Engineering, University of New Brunswick Fredericton.
  • Novak P (2003). Effect of topographical and atmospheric masses on spaceborne gravimetric and gradiometric data. Contract report for the German government, Geodetic Institute, Stuttgart University.
  • Novak P (2003). Computation of local gravity field parameters. Research report, Research Institute of Geodesy, Topography and Cartography Prague.
  • Novak P (2003). Regional gravity field modelling. Proceedings of the 50th anniversary of the establishment of the Research Institute of Geodesy, Topography and Cartography Prague.
  • Kostelecky J, Novak P (2003). A decade of the permanent GPS station at the Geodetic Observatory Pecny. Proceedings of the 50th anniversary of the establishment of the Research Institute of Geodesy, Topography and Cartography Prague.
  • Novak P (2003). Geoid determination from ground and aerial gravity. Department of Geodesy and Geomatics Engineering, University of New Brunswick Fredericton, Technical Report 218: 79-89.
  • Tenzer R, Novak P, Janak J, Huang J, Najafi M, Vajda P, Santos M (2003). The UNB approach for geoid determination by the Stokes-Helmert method. Department of Geodesy and Geomatics Engineering, University of New Brunswick Fredericton, Technical Report 218: 132-178.
  • Novak P (2003). Satellite mission GRACE: gravity field mapping. Contract report for the German government, Geodetic Institute, Stuttgart University.
  • Novak P (2003). Satellite mission GRACE: conservative forces. Contract report for the German government, Geodetic Institute, Stuttgart University.
  • Novak P (2003). Satellite mission GRACE: boundary-value approach. Contract report for the German government, Geodetic Institute, Stuttgart University.
  • Novak P (2002). Secular variations of the low-degree zonal harmonics of geopotential induced by Earth's deglaciation. Contract report for the German government, Geodetic Institute, Stuttgart University.
  • Novak P (2002). On the general method of Helmert's condensation and its application for gravity reduction. Research report, Research Institute of Geodesy, Topography and Cartography Prague.
  • Huang J, Janak J, Najafi M, Novak P, Tenzer R (2001). Stokes-Helmert Geoid Software (SHGEO). Software package for precise geoid computation. Reference manual compiled by Tenzer and Janak. Department of Geodesy and Geomatics Engineering, University of New Brunswick Fredericton.
  • Novak P, Kern M, Schwarz KP, Heck B (2001). On the determination of a band-limited gravimetric geoid from airborne gravimetry. Department of Geomatics Engineering, The University of Calgary, Technical Report 30013: 1-222.
  • Schwarz KP, Bruton A, Novak P (2001). Airborne gravity for exploration and mapping. Contract report for the GEOIDE Network of Centres of Excellence, project 47.
  • Schwarz KP, Kern M, Novak P (2001). Documentation and manual for the geoid program DownHotine. Software package documentation developed within the GEOIDE of Excellence project "Airborne Gravity for Exploration and Mapping", Department of Geomatics Engineering, The University of Calgary.
  • Novak P, Kern M, Schwarz KP (2000). Regularized least-squares estimation of the residual geoid from airborne gravity. Contract report for the GEOIDE Network of Excellence project "Airborne Gravity for Exploration and Mapping", Department of Geomatics Engineering, The University of Calgary.
  • Novak P, Kern M, Schwarz KP (2000). Airborne gravimetric geoid. From theory to practical applications. Contract report for the GEOIDE Network of Excellence project "Airborne Gravity for Exploration and Mapping", Department of Geomatics Engineering, The University of Calgary.
  • Novak P, Kern M (2000). Continuation of airborne gravity. Theoretical background and review of existing approaches. Contract report for the GEOIDE Network of Excellence project "Airborne Gravity for Exploration and Mapping", Department of Geomatics Engineering, The University of Calgary.
  • Novak P (1999). Evaluation of gravity data for the Stokes-Helmert solution to the geodetic boundary-value problem. Doctor of Philosophy dissertation, Department of Geodesy and Geomatics Engineering, University of New Brunswick Fredericton.
  • Vanicek P, Huang J, Novak P (1998). A comparison of downward continuation techniques of terrestrial gravity anomalies. Contract report for the Natural Resources Canada Ottawa, Department of Geodesy and Geomatics Engineering, University of New Brunswick Fredericton.
  • Vanicek P, Novak P, Huang J (1998). Higher-degree Helmert's gravity field. Contract report for the Natural Resources Canada Ottawa, Department of Geodesy and Geomatics Engineering, University of New Brunswick Fredericton.
  • Vanicek P, Huang J, Brink W, Novak P (1998). Preliminary investigations on the effect of topographical mass density variations on gravity and geoid in the Canadian Rocky Mountains. Contract report for the Natural Resources Canada Ottawa, Department of Geodesy and Geomatics Engineering, University of New Brunswick Fredericton.
  • Vanicek P, Novak P, Huang J (1998). Topography in the Stokes-Helmert solution to the geodetic boundary-value problem. Contract report for the Natural Resources Canada Ottawa, Department of Geodesy and Geomatics Engineering, University of New Brunswick Fredericton.
  • Vanicek P, Novak P, Huang J (1998). Stokes's integration as a solution to the geodetic boundary-value problem. Contract report for the Natural Resources Canada Ottawa, Department of Geodesy and Geomatics Engineering, University of New Brunswick Fredericton.
  • Vanicek P, Huang J, Novak P (1997). DOWN'97. Discrete Poisson's downward continuation package for 5'x5' data. Contract report for the Natural Resources Canada Ottawa, Department of Geodesy and Geomatics Engineering, University of New Brunswick Fredericton.
  • Vanicek P, Novak P, Huang J (1997). Atmosphere in Stokes-Helmert's solution of the geodetic boundary-value problem. Contract report for the Natural Resources Canada Ottawa, Department of Geodesy and Geomatics Engineering, University of New Brunswick Fredericton.
  • Vanicek P, Najafi M, Novak P, Huang J (1997). Evaluation of boundary values in the generalized Stokes-Helmert problem. Contract report for the Natural Resources Canada Ottawa, Department of Geodesy and Geomatics Engineering, University of New Brunswick Fredericton.
  • Novak P (1997). Condensed terrain effect on gravity. Contract report for the Natural Resources Canada Ottawa, Department of Geodesy and Geomatics Engineering, University of New Brunswick Fredericton.
  • Novak P (1997). Digital elevation models for the western Canada and U.S. Northwest. Contract report for the Natural Resources Canada Ottawa, Department of Geodesy and Geomatics Engineering, University of New Brunswick Fredericton.
  • Marek P, Novak P, Simek J (1996). Reference geodynamic network of the Czech Republic. Analysis of GPS campaigns in 1995. Research report, Research Institute of Geodesy, Topography and Cartography Prague.
  • Novak P (1994). Czech and Slovak GPS reference network of the zero order. Research report, Research Institute of Geodesy, Topography and Cartography Prague.
  • Novak P, Kostelecky J, Skorepa L (1994). Analysis of DOPNUL campaigns in the ETRF-89. Research report, Research Institute of Geodesy, Topography and Cartography Prague.
  • Broľ J, Novak P, Skorepa L, Skoupy V (1994). Status of the Geodetic Observatory Pecny (July - December 1994). Technical Report 24-1007, Research Institute of Geodesy, Topography and Cartography Prague.
  • Novak P (1994). Status of the Geodetic Observatory Pecny (January - June 1994). Technical Report 24-206, Research Institute of Geodesy, Topography and Cartography Prague.
  • Novak P, Kostelecky J, Skorepa L (1994). Densification of the Czech GPS reference network. Sectors G, H, and J. Contract report for the Czech Office of Surveying, Mapping and Cadastre Prague, Research Institute of Geodesy, Topography and Cartography Prague.
  • Novak P, Kostelecky J, Skorepa L (1994). Densification of the Czech GPS reference network. Sectors E and F. Contract report for the Czech Office of Surveying, Mapping and Cadastre Prague, Research Institute of Geodesy, Topography and Cartography Prague.
  • Kostelecky J, Novak P (1994). Densification of the Czech GPS reference network. Sector D. Contract report for the Czech Office of Surveying, Mapping and Cadastre Prague, Research Institute of Geodesy, Topography and Cartography Prague.
  • Novak P, Kostelecky J, Skorepa L (1994). Densification of the Czech GPS reference network. Sector C. Contract report for the Czech Office of Surveying, Mapping and Cadastre Prague, Research Institute of Geodesy, Topography and Cartography Prague.
  • Kostelecky J, Novak P (1994). Densification of the Czech GPS reference network. Sector B. Contract report for the Czech Office of Surveying, Mapping and Cadastre Prague, Research Institute of Geodesy, Topography and Cartography Prague.
  • Novak P, Kostelecky J (1994). Densification of the Czech GPS reference network. Sector A. Contract report for the Czech Office of Surveying, Mapping and Cadastre Prague, Research Institute of Geodesy, Topography and Cartography Prague.
  • Kostelecky J, Novak P, Simek J (1994). National report of the Czech Republic on the participation in the international GPS campaign "Interconnection of the first order horizontal networks". Research report, Research Institute of Geodesy, Topography and Cartography Prague.
  • Kostelecky J, Marek P, Novak P, Skorepa L (1994). Realization of the ETRF coordinate frame on the territory of the Czech Republic for civilian and military purposes. Proceedings of the seminar "Role of Modern Geodesy in Armed Forces", Budapest.
  • Novak P, Karsky G (1993). Czech and Slovak spatial reference network of the zero order. Analysis of the GPS project CS-NULRAD'92. Research report, Research Institute of Geodesy, Topography and Cartography Prague.
  • Novak P (1993). Interconnection of the Czech and German GPS reference networks. Analysis of the GPS project CZ-BRD'93. Research report, Research Institute of Geodesy, Topography and Cartography Prague.
  • Broz J, Dubisar P, Holota P, Karsky G, Kostelecky J, Livora L, Novak P, Simek J, Simon Z, Vyskocil P (1992). Geodesy and the dynamics of the Earth. Research report, Research Institute of Geodesy, Topography and Cartography Prague.
  • Skoupy V, Novak P (1992). Astronomical observations within the GPS campaign CS-NULRAD'92. Research report, Research Institute of Geodesy, Topography and Cartography Prague.
  • Novak P (1992). On the astronomical levelling. Research report, Department of Geodesy and Photogrammetry, Technical University Berlin.
  • Novak P (1992). Several aspects of the circumzenithal VUGTK 50/500. Research report, Department of Geodesy and Photogrammetry, Technical University Berlin.
  • Novak P (1991). Determination of the astronomical latitude and longitude using the circumzenithal VUGTK 50/500. Contract report for the German Research Council Bonn, Department of Geodesy and Photogrammetry, Technical University Berlin.
  • Novak P (1989). The semi-dynamic method of the satellite geodesy and its applications for laser ranging to LAGEOS. Master of Engineering thesis, Department of Advanced Geodesy, Czech Technical University Prague.
  • Kabelac J, Kuklikova J, Hampacher M, Novak P (1988). Determination of orbital parameters, adjustment of satellite and terrestrial networks and higher-order disturbances of artificial satellites' orbits. Contract report of the project "Dynamic and geometric behaviour of the Earth", Department of Advanced Geodesy, Czech Technical University Prague.