Peer reviewed journal articles, books, book chapters
Showing results 71 - 80 out of 186
2019
Mai, E., Müller, J., & Oberst, J. (2019). Application of an evolution strategy in planetary ephemeris modeling. Advances in space research, 63(1), 728-749. https://doi.org/10.1016/j.asr.2018.09.011
Müller, J., Murphy, T. W., Schreiber, U., Shelus, P. J., Torre, J. M., Williams, J. G., Boggs, D. H., Bouquillon, S., Bourgoin, A., & Hofmann, F. (2019). Lunar Laser Ranging: A tool for general relativity, lunar geophysics and Earth science. Journal of geodesy, 93(11), 2195-2210. https://doi.org/10.1007/s00190-019-01296-0
Olsson, P. A., Breili, K., Ophaug, V., Steffen, H., Nielsen, E., Oja, T., Timmen, L., & Bilker, M. (2019). Postglacial gravity change in Fennoscandia: Three decades of repeated absolute gravity observations. Geophysical journal international, 217(2), 1141-1156. https://doi.org/10.1093/gji/ggz054
Pail, R., Bamber, J., Biancale, R., Bingham, R., Braitenberg, C., Eicker, A., Flechtner, F., Gruber, T., Güntner, A., Heinzel, G., Horwath, M., Longuevergne, L., Müller, J., Panet, I., Savenije, H., Seneviratne, S., Sneeuw, N., Van Dam, T., & Wouters, B. (2019). Mass variation observing system by high low inter-satellite links (MOBILE) - A new concept for sustained observation of mass transport from space. Journal of Geodetic Science, 9(1), 48-58. https://doi.org/10.1515/jogs-2019-0006, https://doi.org/10.15488/11230
Trimeche, A., Battelier, B., Becker, D., Bertoldi, A., Bouyer, P., Braxmaier, C., Charron, E., Corgier, R., Cornelius, M., Douch, K., Gaaloul, N., Herrmann, S., Müller, J., Rasel, E., Schubert, C., Wu, H., & Pereira Dos Santos, F. (2019). Concept study and preliminary design of a cold atom interferometer for space gravity gradiometry. Classical and quantum gravity, 36(21), Article 215004. https://doi.org/10.48550/arXiv.1903.09828, https://doi.org/10.1088/1361-6382/ab4548
2018
Chen, Q., Poropat, L., Zhang, L., Dobslaw, H., Weigelt, M., & van Dam, T. (2018). Validation of the EGSIEM GRACE gravity fields using GNSS coordinate timeseries and in-situ ocean bottom pressure records. Remote sensing, 10(12), Article 1976. https://doi.org/10.3390/rs10121976
Darbeheshti, N., Wöske, F., Weigelt, M., McCullough, C., & Wu, H. (2018). GRACETOOLS: GRACE gravity field recovery tools. Geosciences (Switzerland), 8(9), Article 350. https://doi.org/10.3390/geosciences8090350
Denker, H., Timmen, L., Voigt, C., Weyers, S., Peik, E., Margolis, H. S., Delva, P., Wolf, P., & Petit, G. (2018). Geodetic methods to determine the relativistic redshift at the level of 10 - 18 in the context of international timescales: a review and practical results. Journal of geodesy, 92(5), 487-516. https://doi.org/10.1007/s00190-017-1075-1
Goswami, S., Klinger, B., Weigelt, M., & Mayer-Gürr, T. (2018). Analysis of Attitude Errors in GRACE Range-Rate Residuals—A Comparison Between SCA1B and the Fused Attitude Product (SCA1B + ACC1B). IEEE Sensors Letters, 2(2), Article 5500604. https://doi.org/10.48550/arXiv.1802.02634, https://doi.org/10.1109/LSENS.2018.2825439
Goswami, S., Devaraju, B., Weigelt, M., & Mayer-Gürr, T. (2018). Analysis of GRACE range-rate residuals with focus on KBR instrument system noise. Advances in space research, 62(2), 304-316. https://doi.org/10.48550/arXiv.1707.03724, https://doi.org/10.1016/j.asr.2018.04.036
Peer-reviewed conference papers
Showing results 71 - 80 out of 156
2018
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
Löcher, A., Hofmann, F., Gläser, P., Haase, I., Müller, J., Kusche, J., & Oberst, J. (2017). Towards improved lunar reference frames: LRO orbit determination. In T. V. Dam (Ed.), REFAG 2014 - Proceedings of the IAG Commission 1 Symposium (pp. 201-206). (International Association of Geodesy Symposia; Vol. 146). Springer Verlag. https://doi.org/10.1007/1345_2015_146
Schilling, M., Timmen, L., & Kumme, R. (2017). The gravity field in force standard machines. In 23rd IMEKO TC3 Conference on Measurement of Force, Mass and Torque 2017: Measurement Facing New Challenges, Held Together with TC5 and TC22 (23rd IMEKO TC3 Conference on Measurement of Force, Mass and Torque 2017: Measurement Facing New Challenges, Held Together with TC5 and TC22; Vol. 2017-May). IMEKO-International Measurement Federation Secretariat.
Schön, S., Kermarrec, G., Kargoll, B., Neumann, I., Kosheleva, O., & Kreinovich, V. (2017). Why student distributions? Why matern’s covariance model? a symmetry-based explanation. In Econometrics for Financial Applications (pp. 266-275). (Studies in Computational Intelligence; Vol. 760). Springer Verlag. https://doi.org/10.1007/978-3-319-73150-6_21
Sun, L., Dbouk, H., Neumann, I., Schön, S., & Kreinovich, V. (2017). Taking into Account Interval (and Fuzzy) Uncertainty Can Lead to More Adequate Statistical Estimates. In Fuzzy Logic in Intelligent System Design (pp. 371-381). (Advances in Intelligent Systems and Computing; Vol. 648). Springer Verlag. https://doi.org/10.1007/978-3-319-67137-6_41
Weigelt, M. (2017). The Acceleration Approach. In Lecture Notes in Earth System Sciences (pp. 97-126). (Lecture Notes in Earth System Sciences). Springer International Publishing AG. https://doi.org/10.1007/978-3-319-49941-3_4
2016
Kersten, T., & Schön, S. (2016). Receiver Antenna Phase Center Models and Their Impact on Geodetic Parameters. In L. Sanchez, & J. T. Freymueller (Eds.), International Symposium on Earth and Environmental Sciences for Future Generations - Proceedings of the IAG General Assembly (pp. 253-259). (International Association of Geodesy Symposia; Vol. 147). Springer Verlag. https://doi.org/10.1007/1345_2016_233
Conference contributions (papers, posters, presentations, abstracts)
Showing results 71 - 80 out of 311
2022
Lin, Q., & Schön, S. (Accepted/in press). Feasibility of CSAC-Assisted GNSS Receiver Fingerprinting in Dynamic Environments. In 2nd Symposium of IAG Commission 4 “Positioning and Applications”
Mu, Q., Müller, J., Wu, H., & Knabe, A. (2022). Satellite Gradiometry based on a New Generation of Accelerometers and its Contribution to Earth Gravity Field Determination.
Reis, A., Kupriyanov, A., & Müller, V. (2022). A Framework for Modelling and Simulating Accelerometers. Abstract from COSPAR, Athen, Greece.
Reis, A., Kupriyanov, A., & Müller, V. (2022). A Tool for Accelerometer Modeling. Abstract from European Geosciences Union 2022, Wien, Austria. https://doi.org/10.5194/egusphere-egu22-1168
Ruwisch, F., Ren, L., Skupin, C., Kersten, T., O´Connor, M. C., Schön, S., & Wübbena, T. (2022). Intelligent Database Architecture for High-Integrity Urban Navigation. Poster session presented at 2022 IEEE Intelligent Vehicles Symposium (IV 2022), Aachen, Germany. https://doi.org/10.15488/12110
Singh, V. V., Biskupek, L., Mueller, J., & Zhang, M. (2022). Estimation of Lunar Ephemeris from Lunar Laser Ranging. https://doi.org/10.5194/egusphere-egu22-2815
Vincent, A., Mueller, J., & Wu, H. (2022). Detection of Time Variable Gravity Signals using Terrestrial Clock Networks. https://doi.org/10.5194/egusphere-egu22-1743
Zhang, M., Müller, J., Biskupek, L., & Singh, V. V. (2022). Characteristics of Differential Lunar Laser Ranging. https://doi.org/10.5194/egusphere-egu22-2841
2021
Herr, W., Heine, N., Musakaev, M., Abend, S., Timmen, L., Müller, J., & Rasel, E. M. (2021). First gravity data aquired by the transportable absolute Quantum Gravimeter QG-1 employing collimated Bose-Einstein condensates. Paper presented at EGU General Assembly 2021. https://doi.org/10.5194/egusphere-egu21-15458
HosseiniArani, A., Thomas, N., Jäggi, A., Arnold, D., & Bertone, S. (2021). Impact of accelerometer modeling and parametrization on the BepiColombo orbit determination and gravimetry experiment.
Software, data, miscellaneous publications
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(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
