prof. Ing. Pavel Novák, PhD.

Article Index

Page 3 of 5

prof. Ing. Pavel Novák, PhD.

Publications :

  • Tenzer R, Novak P, Gladkikh V (2011). The bathymetric stripping corrections to gravity field quantities for a depth-dependent model of seawater density. Marine Geodesy (accepted).
  • Tenzer R, Novak P, Vajda P, Gladkikh V, Hamayun (2011). Spectral harmonic analysis and synthesis of Earth's crust gravity field. Computational Geosciences (accepted).
  • Sneeuw N, Novak P, Crespi M, Sanso F (2011). VII Hotine-Marussi Symposium on Mathematical Geodesy. International Association of Geodesy Symposia 137, 450 pp, 110 illus, Hardcover, Springer-Verlag Berlin Heidelberg, ISBN 978-3-642-22077-7.
  • Novak P (2011). On combination of heterogeneous gravitational observables for Earth's gravity field modelling. In: Sneeuw N et al. (eds.), VII Hotine-Marussi Symposium on Mathematical Geodesy, International Association of Geodesy Symposia 137, Springer-Verlag Berlin Heidelberg 2011: 211-216.
  • Tenzer R, Novak P, Gladkikh V (2011). On the accuracy of the bathymetry-generated gravitational field quantities for a depth-dependent seawater density distribution. Studia Geophysica et Geodaetica 55: 609-626.
  • Tenzer R, Hamayan, Novak P, Gladkikh V, Vajda P (2011). Global crust-mantle density contrast estimated from EGM2008, DTM2008, CRUST2.0 and ICE-5G. Pure and Applied Geophysics (accepted).
  • Tenzer R, Novak P, Hamayan, Vajda P (2011). Spectral expressions for modelling the gravitational field of the Earth's crust density structure. Studia Geophysica et Geodaetica (accepted).
  • Gruber C, Novak P, Sebera J (2011). FFT-based high-performance spherical harmonic transformation. Studia Geophysica et Geodaetica (accepted).
  • Tenzer R, Novak P, Vajda P, Ellmann A, Abdalla A (2011). Far-zone gravity field contributions corrected for the effect of topography by means of Molodensky truncation coefficients. Studia Geophysica et Geodaetica 55(1): 55-71.
  • Dousa J, Filler F, Simek J, Kostelecky J, Kostelecky J (jr), Novak P (2011). New implementation of ETRS89 in the Czech Republic: Campaign EUREF-Czech-2009. Geodeticky a kartograficky obzor 55(99): 25-35.
  • Klokocnik J, Kostelecky J, Pesek I, Novak P, Wagner CA, Sebera J (2010). Candidates for multiple impact craters?: Popigai and Chicxulub as seen by the global high resolution gravitational field model EGM2008. Solid Earth Discussions 2: 69-103, ISSN 1869-9537.
  • Tenzer R, Novak P (2010). Effect of the long-wavelength topographical correction on the low-degree Earth' gravity field. In Mertikas SP (ed.) Gravity, Geoid and Earth Observation: 355-360, Springer-Verlag Berlin Heidelberg, ISBN: 978-3-642-10633-0.
  • Vajda P, Ellmann A, Meurers B, Vanicek P, Novak P, Tenzer R (2010). Harmonic continuation and gravimetric inversion of gravity in areas of negative geodetic heights. In Mertikas SP (ed.) Gravity, Geoid and Earth Observation: 25-30. Springer-Verlag Berlin Heidelberg, ISBN: 978-3-642-10633-0.
  • Vajda P, Vanicek P, Novak P, Tenzer R, Ellmann A, Meurers B (2010). On ambiguities in definitions and applications of Bouguer gravity anomaly. In Mertikas SP (ed.) Gravity, Geoid and Earth Observation: 19-24. Springer-Verlag Berlin Heidelberg, ISBN: 978-3-642-10633-0.
  • Klokocnik J, Kostelecky J, Pesek I, Novak P, Wagner CA, Sebera J (2010). Candidates for multiple impact craters?: Popigai and Chicxulub as seen by the global high resolution gravitational field model EGM2008. Solid Earth 1: 71-83, doi=10.5194/se-1-71-2010.
  • Klokocnik J, Kostelecky J, Novak P, Wagner CA (2010). Detection of Earth impact craters aided by the detailed global gravitational model EGM2008. Acta Geodynamica at Geomaterialia 157(1): 71-97.
  • Novak P (2010). Direct modeling of the gravitational field using harmonic series. Acta Geodynamica at Geomaterialia 157(1): 35-47.
  • Novak P (2010). High resolution constituents of the Earth gravitational field. Surveys in Geophysics 31(1): 1-21, doi: 10.1007/s10712-009-9077-z.
  • Klokocnik J, Kostelecky J, Novak P, Bezdek A, Gruber C, Sebera J (2009). Mapping the Earth's gravitational field using GOCE. Geodeticky a kartograficky obzor 55(97): 165-174.
  • Novak P, Klokocnik J, Kostelecky J, Zeman A (2009). Testing EGM08 using Czech GPS/leveling data. Newton's Bulletin 4: 126-132, ISSN 1810-8555.
  • Tsoulis D, Novak P, Kadlec M (2009). Evaluation of precise terrain effects using high-resolution digital elevation models. Journal of Geophysical Research 114, B02404, doi:10.1029/2008JB005639.
  • Novak P, Kostelecky J, Klokocnik J (2009). The new global model of the Earth gravitational field EGM08. Geodeticky a kartograficky obzor 55(3): 45-53.
  • Klokocnik J, Kostelecky J, Novak P (2009). Chicxulub seems to be a double crater and Popigai has little brothers. Vesmir 88(2): 92-95.
  • Tenzer T, Novak P, Prutkin I, Ellmann A, Vajda P (2009). Far-zone contributions to the gravitational field quantities by means of Molodensky's truncation coefficients. Studia Geophysica et Geodaetica 53(2): 157-167.
  • Novak P, Kostelecky J, Klokocnik J (2009). Testing global geopotential models through comparison of a local quasi-geoid model with GPS/levelling data. Studia Geophysica et Geodaetica 53(1): 39-60.
  • Klokocnik J, Wagner CA, Kostelecky J, Bezdek A, Novak P, McAdoo D (2008). Variations in the accuracy of gravity recovery due to ground track variability: GRACE, CHAMP and GOCE. Journal of Geodesy 82(12): 917-927.
  • Kadlec M, Kostelecky J, Novak P (2008). Database for evaluation of gravity field parameters in Central Europe. Geodeticky a kartograficky obzor 53(12): 282-288.
  • Vajda P, Ellmann A, Meurers B, Vanicek P, Novak P, Tenzer R (2008). Global ellipsoid-referenced topographic, bathymetric and stripping corrections to gravity disturbance. Studia Geophysica et Geodaetica 52(1): 19-34.
  • Vajda P, Ellmann A, Meurers B, Vanicek P, Novak P, Tenzer R (2008). Gravity disturbances in regions of negative heights: a reference quasi-ellipsoid approach. Studia Geophysica et Geodaetica 52(1): 35-52.
  • Tenzer R, Ellmann A, Novak P, Vajda P (2008). The Earth's gravity field components of the differences between gravity disturbances and gravity anomalies. In: Sideris M (Ed.) Observing our Changing Earth. Springer Berlin Heidelberg New York, ISBN 978-3-540-85425-8: 155-160.
  • Tenzer R, Novak P (2008). Conditionality of inverse solutions to discretised integral equations in geoid modelling from local gravity data. Studia Geophysica et Geodaetica 52(1): 53-70.
  • Novak P (2007). Recent advances in global gravity field modelling. Czech Technical University, Prague, ISBN 978-80-01-03656-3: 1-30.
  • Novak P (2007). Integral inversion of SST data of type GRACE. Studia Geophysica et Geodaetica 51(3): 351-367.
  • Vajda P, Vanicek P, Novak P, Tenzer R, Ellmann A (2007). Secondary indirect effects in gravity anomaly data inversion or interpretation. Journal of Geophysical Research 112, B06411, doi:10.1029/2006JB004470.
  • Novak P (2007). Gravity reduction using a general method of Helmert's condensation. Acta Geodaetica et Geophysica Hungarica 42(1): 83-105.
  • Novak P, Kostelecky J, Klokocnik J (2006). On accuracy of current geopotential models estimated through a comparison of quasi-geoid models and GPS/levelling data. Reports on Geodesy 76: 245-251.
  • Tenzer R, Novak P, Moore P, Vajda P (2006). Atmospheric effects in the derivation of geoid-generated gravity anomalies. Studia Geophysica et Geodaetica 50(4): 583-593.
  • Tenzer R, Novak P, Moore P, Kuhn M, Vanicek P (2006). Explicit formula for the geoid-quasigeoid separation. Studia Geophysica et Geodaetica 50(4): 607-618.
  • Novak P, Grafarend EW (2006). The effect of topographical and atmospheric masses on spaceborne gravimetric and gradiometric data. Studia Geophysica et Geodaetica 50(4): 549-582.
  • Novak P (2006). Evaluation of local gravity field parameters from high resolution gravity and elevation data. Contributions to Geophysics and Geodesy 36(1): 1-33.
  • Novak P, Austen A, Sharifi MA, Grafarend EW (2006). Mapping Earth's gravitation using GRACE data. In: Flury J, Rummel R, Reigber C, Rothacher M, Boedecker G, Schreiber U (Eds.) Observation of the Earth System from Space. Springer Berlin Heidelberg New York, ISBN 978-3-540-29520-8: 149-164.
  • Novak P (2005). Regional gravity field modeling. Proceedings 50 Years the Research Institute of Geodesy, Topography and Cartography Prague 50: 105-112, ISBN: 978-80-85881-23-3.
  • Kostelecky J, Novak P (2005). A decade of the permanent GPS station at the Geodetic Observatory Pecny. Proceedings 50 Years of the Research Institute of Geodesy, Topography and Cartography Prague 50: 85-90, ISBN: 978-80-85881-23-3.
  • Novak P, Grafarend EW (2005). The ellipsoidal representation of the topographical potential and its vertical gradient. Journal of Geodesy 78(11-12): 691-706.
  • Vajda P, Vanicek P, Novak P, Meurers B (2004). On evaluation of Newton integrals in geodetic coordinates: Exact formulation and spherical approximation. Contributions to Geophysics and Geodesy 34(4): 289-314.
  • Grafarend EW, Novak P, Austen G, Sharifi MA (2003). The GRACE processor for a spherical harmonic analysis of temporal variations of geopotential. Geotechnologien Science Report 3, ISSN 1619-7399: 63-66.
  • Kostelecky J, Novak P (2003). A decade of the permanent GPS station at the Geodetic Observatory Pecny. Geodeticky a kartograficky obzor 49(10): 206-209.
  • Tenzer R, Vanicek P, Novak P (2003). Far-zone contributions to topographical effects in the Stokes-Helmert method of the geoid determination. Studia Geophysica et Geodaetica 47(3): 467-480.
  • Novak P, Simek J, Kostelecky J (2003). A detailed gravimetric quasi-geoid model VUGTK 2002 for Central Europe. In: Tziavos IN (Ed.) Gravity and Geoid 2002. Ziti Editions, Thessaloniki, ISBN 960-431-852-7: 150-155.
  • Novak P (2003). Geoid determination using one-step integration. Journal of Geodesy 77(3-4): 193-206.
  • Novak P, Bruton AM, Bayoud FA, Kern M, Schwarz KP (2003). On numerical and data requirements for topographical reduction of airborne gravity in geoid determination and resource exploration. Bollettino di Geodesia e Scienze Affini 62(2): 103-124.
  • Novak P, Kern M, Schwarz KP, Heck B (2003). Evaluation of band-limited topographical effects in airborne gravimetry. Journal of Geodesy 76(11-12): 594-604.
  • Novak P (2003). Optimal model for geoid determination from airborne gravity. Studia Geophysica et Geodaetica 47(1): 1-36.
  • Novak P, Kern M, Schwarz KP, Sideris MG, Heck B, Ferguson S, Hammada Y, Wei M (2003). On geoid determination from airborne gravity. Journal of Geodesy 76(9-10): 510-522.
  • Vanicek P, Novak P, Craymer M, Pagiatakis S (2003). On the correct determination of transformation parameters of the horizontal geodetic datum. Geomatica 56(4): 329-340.
  • Novak P (2002). The use of airborne gravimetry for precise geoid determination. Geodeticky a kartograficky obzor 48(2): 85-94.
  • Novak P, Heck B (2002). Downward continuation and geoid determination based on band-limited airborne gravity data. Journal of Geodesy 76(5): 269-278.
  • Novak P, Kern M, Schwarz KP, Heck B (2001). On the determination of a band-limited gravimetric geoid from airborne gravimetry. Habilitation dissertation, Department of Advanced Geodesy, Czech Technical University Prague: 1-222.
  • Novak P, Vanicek P, Martinec Z, Veronneau M (2001). Effects of the spherical terrain on gravity and the geoid. Journal of Geodesy 75(9-10): 491-504.
  • Novak P, Kern M, Schwarz KP (2001). Numerical studies on the harmonic downward continuation of band-limited airborne gravity. Studia Geophysica et Geodaetica 45(4): 327-345.
  • Vanicek P, Novak P, Martinec Z (2001). Geoid, topography, and the Bouguer plate or shell. Journal of Geodesy 75(4): 210-215.
  • Novak P, Vanicek P, Veronneau M, Holmes SA, Featherstone WE (2001). On the accuracy of Stokes's integration in the precise high-frequency geoid determination. Journal of Geodesy 74(9): 644-654.
  • Novak P (2000). 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: 1-139.
  • Huang J, Vanicek P, Novak P (2000). An alternative algorithm to FFT for the numerical evaluation of Stokes's integral. Studia Geophysica et Geodaetica 44(3): 374-380.
  • Vanicek P, Huang J, Novak P, Veronneau M, Pagiatakis SD, Martinec Z, Featherstone WE (1999). Determination of boundary values for the Stokes-Helmert problem. Journal of Geodesy 73(4): 180-192.
  • Cimbalnik M, Dusatko D, Janus P, Karsky G, Kostelecky J, Laza L, Nevosad Z, Novak P, Provazek J, Rikal J, Skorepa L, Simek J, Talich M, Vatrt V, Zajicek L (1998). Geodetic reference systems in the Czech Republic. Monograph published by the Research Institute of Geodesy, Topography and Cartography and Military Geographical Institute, Prague, ISBN 80-85881-09-8: 1-186.
  • Kostelecky J, Novak P, Skorepa L, Simek J (1996). Analysis of continuous GPS observations for geodynamics purposes. In: GPS Trends in precise terrestrial, airborne and spaceborne applications. Springer Berlin Heidelberg New York, ISBN 3-540-60872-9: 65-69.
  • Skorepa Z, Novak P (1996). GPS survey in the "Stare Mesto pod Sneznikem" experimental network. Geodeticky a kartograficky obzor 42(7): 138-142.
  • Marek P, Novak P, Simek J (1995). GPS-based investigations of recent crustal movements in the seismoactive area Western Bohemia - Vogtland. Reports on Geodesy 16(3): 361-368.
  • Marek P, Novak P (1995). Central European Geodynamics Reference Network. Czech solution 1994. Reports on Geodesy 16(3): 341-350.
  • Novak P, Marek P (1995). Report of the CERGOP processing center Pecny, Czech Republic. Reports on Geodesy 16(2): 117-128.
  • Novak P (1995). International GPS Service for Geodynamics in 1995. Geodeticky a kartograficky obzor 41(10): 183-189.
  • Kostelecky J, Novak P, Simek J (1994). On the long-term behaviour of longer baselines determined by GPS. Reports on Geodesy 10(2): 181-185.
  • Novak P, Karsky G, Skorepa L (1994). Accuracy of the GPS technology on very short baselines. Geodeticky a kartograficky obzor 40(11): 227-231.
  • Novak P, Karsky G (1994). Analysis of the Czech GPS reference network. Geodeticky a kartograficky obzor 40(9): 183-189.
  • Novak P, Skoupy V (1994). Astronomical observations within the GPS project CS-NULRAD'92. Geodeticky a kartograficky obzor 40(3): 45-47.
  • Karsky G, Novak P (1994). Preliminary analysis of the Czech GPS reference network. Geodeticky a kartograficky obzor 40(1): 218-222.
  • Novak P, Karsky G (1994). The Czech and Slovak reference network of zero order (solution 1993). Reports of the Research Institute of Geodesy, Topography and Cartography 11, ISBN 80-901319-9-9: 1-95.
  • Novak P, Kostelecky J, Skorepa L (1994). Preliminary analysis of continuous GPS observations. Reports on Geodesy 13(5): 185-209.
  • Karsky G, Kostelecky J, Novak P, Simek J (1993). Realization of the GPS reference network on the territory of the Czech and Slovak Republics. Reports of the Research Institute of Geodesy, Topography and Cartography 7: 1-44.
  • Novak P (1993). Astronomical observations in the Czechoslovak GPS reference network. Scientific Newspapers of the Technical University Dresden 42, ISSN 0043-6925: 39-42.