M.Sc. Markus Hauk

Lehrstuhl für Astronomische und Physikalische Geodäsie
Technische Universität München
Arcisstr. 21
80333 München

Raum: 2611
Tel: +49 89 / 289 231 85
Fax: +49 89 / 289 231 87
 
E-Mail: markus.hauk@tum.de

Publikationen

2019

  • Hauk, Markus; Pail, Roland: Gravity Field Recovery Using High-Precision, High–Low Inter-Satellite Links. Remote Sensing 11 (5), 2019 more… BibTeX Full text ( DOI )

2018

  • Hauk, Markus; Pail, Roland: Treatment of ocean tide aliasing in the context of a next generation gravity field mission. Geophysical Journal International 214 (1), 2018, 345-365 more… BibTeX Full text ( DOI )
  • Schack, P.; Hirt, C.; Hauk, M.; Featherstone, W. E.; Lyon, T. J.; Guillaume, S.: A high-precision digital astrogeodetic traverse in an area of steep geoid gradients close to the coast of Perth, Western Australia. Journal of Geodesy 92 (10), 2018, 1143--1153 more… BibTeX Full text ( DOI )

2017

  • Hauk, M.; Schlicht, A.; Pail, R.; Murböck, M.: Gravity field recovery in the framework of a Geodesy and Time Reference in Space (GETRIS). Advances in Space Research 59 (2017) (8, 15 April 2017), 2017, 2032-2047 more… BibTeX Full text ( DOI )

2016

Vorträge & Poster

2018

  • Albayrak, M.; Hirt, C.; Guillaume, S.; Hauk, M.; Halicioglu, K.: Testing the QDaedalus Measurement System for Astrogeodetic Observations of the Gravity Field. American Geophysical Union Fall Meeting, 2018 more… BibTeX
  • Hauk, M.; Pail, R.: Treatment of ocean tide aliasing in the context of a next generation gravity field mission. European Geosciences Union General Assembly, 2018 more… BibTeX
  • Hauk, M.; Pail, R.: Gravity field recovery by high-precision high-low inter-satellite links. International Symposium Gravity, Geoid and Height Systems 2, 2018 more… BibTeX
  • Hauk, M.; Pail, R.; Purkhauser, A.; Gruber, T.: Constellations of Next Generation Gravity Missions: Simulations regarding optimal orbits and mitigation of aliasing errors. International Symposium Gravity, Geoid and Height Systems 2, 2018 more… BibTeX
  • Pail, R.; Gruber, T.; Abrykosov, P.; Hauk, M.; Purkhauser, A.: Assessment of NGGM Concepts for Sustained Observation of Mass Transpoort in the Earth System. GRACE/GRACE-FO Science Team Meeting, 2018 more… BibTeX
  • Pail, R.; Gruber, Th., Hauk, M.; Abrykosov, P.: Assessment of Future Mission Concepts for Sustained Observation of Mass Transport in the Earth System. American Geophysical Union Fall Meeting, 2018 more… BibTeX
  • Purkhauser, A.; Pail, R.; Hauk, M.: NGGM Near-Real Time Gravity Data Applicability Regarding Extreme Weather Phenomes: First Results. International Symposium Gravity, Geoid and Height Systems 2, 2018 more… BibTeX
  • Purkhauser, A.; Pail, R.; Hauk, M.; Visser, P.; Sneeuw, N.; Saemian, P.; Liu, W.; Engels, J.; Chen, Q.; Siemes, C.; Haagmans, R.; Massotti, L.: Gravity Field Retrieval of Next Generation Gravity Missions regarding Geophysical Services: Results of the ESA-ADDCON Project. European Geosciences Union General Assembly, 2018 more… BibTeX
  • Schack, P.; Hirt, C.; Hauk, M.; Featherstone, W.; Lyon, T.; Guillaume, S.: The first high-precision digital astrogeodetic traverse in the Southern Hemisphere. European Geosciences Union General Assembly, 2018 more… BibTeX
  • Schack, P.; Hirt, C.; Hauk, M.; Featherstone, W.E.; Lyon, T.J.; Guillaume, S.: A high-precision digital astrogeodetic traverse in a coastal area of steep geoid gradients. International Symposium Gravity, Geoid and Height Systems 2, 2018 more… BibTeX

2017

  • Hauk, M.; Pail, R.; Gruber, Th.; Purkhauser, A.: Constellations of Next Generation Gravity Missions: Simulations regarding optimal orbits and mitigation of aliasing errors. American Geophysical Union Fall Meeting, 2017 more… BibTeX
  • Hauk, M.; Daras, I.; Pail, R.: Reduction of ocean tide aliasing in the context of a next generation gravity field mission. European Geosciences Union General Assembly 2017, 2017 more… BibTeX

2016

  • Daras, I.; Hauk, M.; Pail, R.; Purkauser, A.: Mitigation of temporal aliasing effects in the context of a next generation gravity mission. International Symposium on Gravity, Geoid and Height System 2016 - 1st Joint Commission 2 and IGFS Meeting, 2016 more… BibTeX
  • Hauk, M.; Daras, I.; Pail, R.; Murböck, M.: Co-estimation of ocean tide parameters in the context of a next generation gravity mission. International Symposium on Gravity, Geoid and Height System 2016 - 1st Joint Commission 2 and IGFS Meeting, 2016 more… BibTeX
  • Hauk, M.; Pail, R.; Daras, I.; Murböck, M.; Purkhauser, A.: Treatment of ocean tide aliasing in the context of a next generation gravity field mission. Living Planet Symposium 2016, 2016 more… BibTeX
  • Hauk, M.; Pail, R.; Murböck, M.; Schlicht, A.: Time variable gravity retrieval and treatment of temporal aliasing using optical two-way links between GALILEO and LEO satellites. Living Planet Symposium 2016, 2016 more… BibTeX
  • Hauk, M.; Schlicht, A.; Pail, R.; Murböck, M.: Gravity field recovery and treatment of temporal aliasing in the framework of a Geodesy and Time Reference in Space (GETRIS). International Symposium on Gravity, Geoid and Height System 2016 - 1st Joint Commission 2 and IGFS Meeting, 2016 more… BibTeX
  • Pail, R.; Hauk, M.; Daras, I.; Murböck, M.; Purkhauser, A.: Reduction of ocean tide aliasing in the context of a next generation gravity field mission. European Geosciences Union General Assembly 2016, 2016 more… BibTeX

2015

  • Hauk, M.; Murböck, M; Pail, R.; Schlicht, A.: Determination of Temporal Changes in the Earth's Gravitational Field Using Optical Two-way Links between GALILEO and LEO Satellites. 5th International Colloquium Scientific and Fundamental Aspects of the Galileo Programme, 2015 more… BibTeX

2014

  • Hauk, M.; Ackermann, C.; Hirt, C.: Erprobung des astrogeodätischen Messsystems QDaedalus zur Bestimmung von genauen Lotabweichungen. Geodätische Woche, 2014 more… BibTeX

Betreute Arbeiten

2017

  • Abrykosov, Petro: Die Auswirkungen von Akzelerometermessungen auf die Genauigkeit der Schwerefeldbestimmung. Master thesis, 2017 more… BibTeX

2016

  • Hofacker, M.: Räumlich-zeitliche Analyse von Ozeangezeiten als Fehlereinfluss bei der Schwerefeldbestimmung. Bachelor thesis, 2016 more… BibTeX