Peer reviewed journal articles, books, book chapters
Showing results 71 - 80 out of 199
2020
Riedel, F., Al-Masoudi, A., Benkler, E., Dörscher, S., Gerginov, V., Grebing, C., Häfner, S., Huntemann, N., Lipphardt, B., Lisdat, C., Peik, E., Piester, D., Sanner, C., Tamm, C., Weyers, S., Denker, H., Timmen, L., Voigt, C., Calonico, D., ... Margolis, H. S. (2020). Direct comparisons of European primary and secondary frequency standards via satellite techniques. METROLOGIA, 57(4), Article 045005. https://doi.org/10.48550/arXiv.1910.06736, https://doi.org/10.1088/1681-7575/ab6745
Ruwisch, F., Jain, A., & Schön, S. (2020). Characterisation of GNSS carrier phase data on a moving zero-baseline in urban and aerial navigation. Sensors, 20(14), Article 4046. https://doi.org/10.3390/s20144046
Schilling, M., Wodey, É., Timmen, L., Tell, D., Zipfel, K. H., Schlippert, D., Schubert, C., Rasel, E. M., & Müller, J. (2020). Gravity field modelling for the Hannover 10 m atom interferometer. Journal of Geodesy, 94(12), Article 122. https://doi.org/10.1007/s00190-020-01451-y, https://doi.org/10.15488/10717
Timmen, L., Rothleitner, C., Reich, M., Schröder, S., & Cieslack, M. (2020). Investigation of Scintrex CG-6 Gravimeters in the Gravity Meter Calibration System Hannover. AVN Allgemeine Vermessungs-Nachrichten, 127(4), 155-162. https://gfzpublic.gfz-potsdam.de/pubman/item/item_5003300
Weise, A., Timmen, L., Deng, Z., Gabriel, G., Rothleitner, C., Schilling, M., & Voigt, C. (2020). Observing ocean mass variability with spring gravimeters: Storm surge induced signals on the north sea island helgoland. AVN Allgemeine Vermessungs-Nachrichten, 127(4), 163-173. https://gispoint.de/artikelarchiv/avn/2020/avn-ausgabe-042020/6608-observing-ocean-mass-variability-with-spring-gravimeters-storm-surge-induced-signals-on-the-north-sea-island-helgoland-federgravimeter-messen-massenverlagerungen-im-ozean-sturmflut-induzierte-signale-auf-der-nordseeinsel-helgoland.html
Zhang, M., Müller, J., & Biskupek, L. (2020). Test of the equivalence principle for galaxy’s dark matter by lunar laser ranging. Celestial Mechanics and Dynamical Astronomy, 132(4), Article 25. https://doi.org/10.1007/s10569-020-09964-6
2019
Behzadpour, S., Mayer-Gürr, T., Flury, J., Klinger, B., & Goswami, S. (2019). Multiresolution wavelet analysis applied to GRACE range-rate residuals. Geoscientific Instrumentation, Methods and Data Systems, 8(2), 197-207. https://doi.org/10.5194/gi-8-197-2019, https://doi.org/10.15488/5236
Jäggi, A., Weigelt, M., Flechtner, F., Güntner, A., Mayer-Gürr, T., Martinis, S., Bruinsma, S., Flury, J., Bourgogne, S., Steffen, H., Meyer, U., Jean, Y., Sušnik, A., Grahsl, A., Arnold, D., Cann-Guthauser, K., Dach, R., Li, Z., Chen, Q., ... Shabanloui, A. (2019). European Gravity Service for Improved Emergency Management (EGSIEM): from concept to implementation. Geophysical journal international, 218(3), 1572-1590. Article ggz238. https://doi.org/10.1093/gji/ggz238
Kermarrec, G., Neumann, I., Alkhatib, H., & Schon, S. (2019). The stochastic model for Global Navigation Satellite Systems and terrestrial laser scanning observations: A proposal to account for correlations in least squares adjustment. Journal of Applied Geodesy, 13(2), 93-104. https://doi.org/10.1515/jag-2018-0019
Lin, M., Denker, H., & Müller, J. (2019). A comparison of fixed- and free-positioned point mass methods for regional gravity field modeling. Journal of geodynamics, 125, 32-47. https://doi.org/10.1016/j.jog.2019.01.001
Peer-reviewed conference papers
Showing results 71 - 80 out of 162
2018
Kersten, T., Ren, L., & Schön, S. (2018). Continuous Navigation of an Inland Vessel with a Synthetic GNSS Antenna. In Proceedings of POSNAV ITS 2018 https://doi.org/10.15488/3897
Koch, I., Shabanloui, A., & Flury, J. (2018). Calibration of GRACE Accelerometers Using Two Types of Reference Accelerations. In L. Sánchez, & J. T. Freymueller (Eds.), International Symposium on Advancing Geodesy in a Changing World : Proceedings of the IAG Scientific Assembly, Kobe, Japan, July 30 – August 4, 2017 (pp. 97-104). (International Association of Geodesy Symposia; Vol. 149). Springer Verlag. https://doi.org/10.15488/4961, https://doi.org/10.1007/1345_2018_46
Krawinkel, T., & Schön, S. (2018). On the potential of receiver clock modeling in kinematic precise point positioning. In Proceedings of the 31st International Technical Meeting of the Satellite Division of the Institute of Navigation, ION GNSS+ 2018 (pp. 3897-3908). Institute of Navigation. https://doi.org/10.33012/2018.16039
Kube, F., & Schön, S. (2018). PPP Carrier Phase Residual Stacking for Turbulence Investigations. In L. Sanchez, & J. T. Freymueller (Eds.), International Symposium on Earth and Environmental Sciences for Future Generations - Proceedings of the IAG General Assembly (pp. 237-243). (International Association of Geodesy Symposia; Vol. 147). Springer Verlag. https://doi.org/10.1007/1345_2016_239
Männel, B., Thaller, D., Rothacher, M., Böhm, J., Müller, J., Glaser, S., Dach, R., Biancale, R., Bloßfeld, M., Kehm, A., Pinzón, I. H., Hofmann, F., Andritsch, F., Coulot, D., & Pollet, A. (2018). Recent Activities of the GGOS Standing Committee on Performance Simulations and Architectural Trade-Offs (PLATO). In L. Sánchez, & J. T. Freymueller (Eds.), International Symposium on Advancing Geodesy in a Changing World - Proceedings of the IAG Scientific Assembly, 2017 (pp. 161-164). (International Association of Geodesy Symposia; Vol. 149). Springer Verlag. https://doi.org/10.1007/1345_2018_30
Schilling, M., & Timmen, L. (2018). Traceability of the Hannover FG5X-220 to the SI units. In L. Sanchez, & J. T. Freymueller (Eds.), International Symposium on Earth and Environmental Sciences for Future Generations - Proceedings of the IAG General Assembly (pp. 69-75). (International Association of Geodesy Symposia; Vol. 147). Springer Verlag. https://doi.org/10.1007/1345_2016_226
Schön, S., Pham, H., & Krawinkel, T. (2018). On Removing Discrepancies Between Local Ties and GPS-Based Coordinates. In L. Sanchez, & J. T. Freymueller (Eds.), International Symposium on Earth and Environmental Sciences for Future Generations - Proceedings of the IAG General Assembly (pp. 245-252). (International Association of Geodesy Symposia; Vol. 147). Springer Verlag. https://doi.org/10.1007/1345_2016_238
Schön, S., & Alpers, P. (2018). On the Potential of Receiver Clock Modeling in Kinematic Precise Point Positioning: Enhancing the positioning and heading determination of a ferry. In Proceedings of the 31st International Technical Meeting of the Satellite Division of the Institute of Navigation, ION GNSS+ 2018 (pp. 2142-2154). Institute of Navigation. https://doi.org/10.33012/2018.15851
2017
Bochkati, M., Schön, S., Schlippert, D., Schubert, C., & Rasel, E. (2017). Could Cold Atom Interferometry Sensors be the Future Inertial Sensors? – First Simulation Results. In G. F. Trommer (Ed.), 2017 DGON Inertial Sensors and Systems (ISS) (International Symposium on Inertial Sensors and Systems). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/inertialsensors.2017.8171500
Fernandez, N. G., & Schön, S. (2017). Development of a simulation tool for collaborative navigation systems. In 2017 14th Workshop on Positioning, Navigation and Communications (WPNC) (pp. 1-6). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/wpnc.2017.8250074
Dissertations
Showing results 36 - 40 out of 40
2007
Dilßner, F. (2007). Zum Einfluss des Antennenumfeldes auf die hochpräzise GNSS-Positionsbestimmung. [Doctoral thesis, Leibniz University Hannover]. Fachrichtung Geodäsie und Geoinformatik der Leibniz-Univ.
Wolf, K. I. (2007). Kombination globaler Potentialmodelle mit terrestrischen Schweredaten für die Berechnung der zweiten Ableitungen des Gravitationspotentials in Satellitenbahnhöhe. [Doctoral thesis, Leibniz University Hannover]. Leibniz Universität Hannover. https://doi.org/10.15488/6992
2005
Roland, M. (2005). Untersuchungen zur Kombination terrestrischer Schweredaten und aktueller globaler Schwerefeldmodelle. [Doctoral thesis, Leibniz University Hannover].
2004
Hirt, C. (2004). Entwicklung und Erprobung eines digitalen Zenitkamerasystems für die hochpräzise Lotabweichungsbestimmung. [Doctoral thesis, Leibniz University Hannover]. Fachrichtung für Vermessungswesen d. Univ. https://doi.org/10.15488/6367
2003
Menge, F. (2003). Zur Kalibrierung der Phasenzentrumsvariationen von GPS-Antennen für die hochpräzise Positionsbestimmung. [Doctoral thesis, Leibniz University Hannover]. Univ. Hannover, Fachber. Bauingenieur- u. Vermessungswesen. https://doi.org/10.15488/6229
Conference contributions (papers, posters, presentations, abstracts)
Showing results 71 - 80 out of 329
2022
Biskupek, L., Singh, V. V., Müller, J., & Zhang, M. (2022). Benefit of improved Lunar Laser Ranging data for the determination of Earth orientation parameters. 22nd International Workshop on Laser Ranging, Yebes, Spain.
Biskupek, L., Singh, V. V., Müller, J., & Zhang, M. (2022). Estimation of Earth rotation parameters from Lunar Laser Ranging data . https://doi.org/10.5194/egusphere-egu22-3377
Brekenkamp, M., Kröger, J., & Schön, S. (2022). Einfluss von Phasenzentrumskorrekturen auf die Positionsebene: ein simulativer Ansatz. Frontiers of Geodetic Science, Essen, North Rhine-Westphalia, Germany. Advance online publication.
Elmaghraby, A., Krawinkel, T., & Schön, S. (2022). Inventory of Error Sources Limiting GNSS-based Frequency Transfer. In 2022 Joint Conference of the European Frequency and Time Forum and IEEE International Frequency Control Symposium, EFTF/IFCS 2022 - Proceedings (2022 Joint Conference of the European Frequency and Time Forum and IEEE International Frequency Control Symposium, EFTF/IFCS 2022 - Proceedings). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/EFTF/IFCS54560.2022.9850608
Grotti, J., Herbers, S., Al-Masoudi, A. K. A., Dörscher, S., Koke, S., Grosche, G., Timmen, L., Vishnyakova , G., Maisenbacher , L., Matveev , A., Hansch, T. W., Koller, S., Benkler, E., Schwarz, R., Waterholter, T., Kuhl, A., Lisdat, C., Denker, H., Holzwarth, R., & Giunta, M. (2022). Chronometric leveling using a transportable strontium atomic clock. Poster session presented at American Geophysical Union (AGU) Fall Meeting 2022, Chicago, Illinois, United States. https://agu.confex.com/agu/fm22/meetingapp.cgi/Paper/1062069
Herr, W., Heine, N., Rasel, E. M., Müller, J., & Timmen, L. (2022). Gravity data acquisition and validation of the interferometric meaurement concept with the transportable absolute Quantum Gravimeter QG-1. Abstract from European Geosciences Union 2022, Wien, Austria. https://doi.org/10.5194/egusphere-egu22-11635
Hosseiniarani, A., Bertone, S., Arnold, D., Desprats, W., Peron, R., Jäggi, A., & Thomas, N. (2022). Combined recovery of accelerometer parameters, spacecraft orbit, and Mercury gravity field for the BepiColombo mission. https://ui.adsabs.harvard.edu/abs/2022cosp...44.3402H/abstract
HosseiniArani, S. A., Tennstedt, B., Schilling, M., Knabe, A., Beaufils, Q., Romeshkani, M., Wu, H., Kupriyanov, A., Dos Santos, F. P., Schön, S., & Müller, J. (2022). Improved Modeling for Hybrid Accelerometers Onboard Future Satellite Gravity Missions. Paper presented at COSPAR, Athen, Greece. https://elib.dlr.de/192268/
Karimidoona, A., Icking, L. L., Ruwisch, F., & Schön, S. (2022). On the Prediction of Network RTK Integrity Performance in Urban Environments. In On the Prediction of Network RTK Integrity Performance in Urban Environments (10th ESA Workshop on Satellite Navigation Technologies and European Workshop on GNSS Signals and Signal Processing (NAVITEC)).
Kersten, T., Schön, S., Kröger, J., & Breva, Y. (2022). GNSS Antenna Calibration Values as Bottleneck for Reliable Atmospheric Parameters. Abstract from American Geophysical Union (AGU) Fall Meeting 2022, Chicago, Illinois, United States.
Software, data, miscellaneous publications
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(2025): The RINEX Dataset to the IGS Receiver Antenna Ring Calibration Campaign 2022-2024 (IGS RingCalVal), Leibniz University Hannover
DOI: 10.5281/zenodo.16878951 -
(2025): The ANTEX Dataset to the IGS Receiver Antenna Ring Calibration Campaign 2022-2024 (IGS RingCalVal), [Data set]. Leibniz University Hannover
DOI: 10.5281/zenodo.16816983 -
(2022): Weak Equivalence Principle Test with Neutrons, Dataset: Institut Laue-Langevin (ILL)
DOI: 10.5291/ILL-DATA.3-14-415 -
(2022): Dataset: Earth Rotation Parameters from LLR with NPs for timespan 1970 - 2021, Research Data Repository of the Leibniz University of Hannover
DOI: 10.25835/3h1r07a7 -
(2020): Dataset: LUH-GRACE-FO-2020, Data Repository Leibniz University Hannover More info
DOI: 10.25835/0062546 -
(2020): International Combination Service for Time-variable Gravity Fields (COST-G) Monthly GRACE-FO Series. V. 01, GFZ Data Services More info
DOI: 10.5880/ICGEM.COST-G.002 -
(2019): Dataset: Urban GNSS campaigns from 2015-2017 in Hamburg Groß-Flottbek from SIMULTAN project, Data Repositorium Leibniz University Hannover and Leibniz University IT Service (LUIS)
DOI: 10.25835/0050677 -
(2019): Dataset: Urban GNSS campaigns from 2015-2017 in Bad Frankenhausen (Thuringia) from SIMULTAN project, Data Repositorium Leibniz University Hannover and Leibniz University IT Service (LUIS)
DOI: 10.25835/0084648 -
(2019): Dataset: LUH-GRACE2018, Data Repository Leibniz University Hannover More info
DOI: 10.25835/0022864 -
(2019): Robot based phase centre corrections for new GNSS signals, Data Repository Leibniz University Hannover and Leibniz University IT Service (LUIS)
DOI: 10.25835/0075279 -
(2018): Dataset: GNSS mass market and geodetic receiver benchmark study, Data Repository Leibniz University Hannover and Leibniz University IT Service (LUIS)
DOI: 10.25835/0034324 -
(2018): Dataset: GPS code phase variations (CPV) for GNSS receiver antennas, Data Repositorium Leibniz University Hannover and Leibniz Uiversity IT Service (LUIS)
DOI: 10.25835/0012492
