Begutachtete Zeitschriftenartikel, Bücher, Buchkapitel
Zeige Ergebnisse 21 - 30 von 197
2024
Vincent, A., & Müller, J. (2024). Detection of time variable gravity signals using terrestrial clock networks. Advances in Space Research, 73(6), 3312-3320. https://doi.org/10.1016/j.asr.2023.07.058
Voigt, C., Sulzbach, R., Dobslaw, H., Weise, A., Timmen, L., Deng, Z., Reich, M., Stolarczuk, N., Peters, H., Fietz, M., Thomas, M., & Flechtner, F. M. (2024). Non-tidal ocean loading signals of the North and Baltic Sea from terrestrial gravimetry, GNSS, and high-resolution modeling. Geophysical Research Letters, 51(13), Artikel e2024GL109262. https://doi.org/10.22541/essoar.171136797.71160253/v1, https://doi.org/10.1029/2024GL109262
Weigelt, M., Jäggi, A., Meyer, U., Arnold, D., Mayer-Gürr, T., Öhlinger, F., Sośnica, K., Ebadi, S., Schön, S., & Steffen, H. (2024). Bridging the gap between GRACE and GRACE Follow-On by combining high–low satellite-to-satellite tracking data and satellite laser ranging. Journal of geodesy, 98(9), Artikel 84. https://doi.org/10.1007/s00190-024-01888-5
Wöhnke, V., Eicker, A., Weigelt, M., Reich, M., Güntner, A., Kvas, A., & Mayer-Gürr, T. (2024). Kalman filter framework for a regional mass change model from GRACE satellite gravity. GEM - International Journal on Geomathematics, 16(1), Artikel 2. https://doi.org/10.1007/s13137-024-00260-1
Zhang, M., Müller, J., & Biskupek, L. (2024). Advantages of combining Lunar Laser Ranging and Differential Lunar Laser Ranging. Astronomy & Astrophysics, 681, Artikel A5. https://doi.org/10.1051/0004-6361/202347643
Zingerle, P., Romeshkani, M., Haas, J., Gruber, T., Güntner, A., Müller, J., & Pail, R. (2024). The Benefits of Future Quantum Accelerometers for Satellite Gravimetry. Earth and Space Science (ESS), 11(9), Artikel e2024EA003630. https://doi.org/10.1029/2024EA003630
2023
Atabati, A., Jazireeyan, I., Alizadeh, M., Pirooznia, M., Flury, J., Schuh, H., & Soja, B. (2023). Analyzing the Ionospheric Irregularities Caused by the September 2017 Geomagnetic Storm Using Ground-Based GNSS, Swarm, and FORMOSAT-3/COSMIC Data near the Equatorial Ionization Anomaly in East Africa. Remote sensing, 15(24), Artikel 5762. https://doi.org/10.3390/rs15245762
Baasch, K. N., Icking, L., Ruwisch, F., & Schön, S. (2023). Coordinate Frames and Transformations in GNSS Ray-Tracing for Autonomous Driving in Urban Areas. Remote Sensing, 15(1), Artikel 180. https://doi.org/10.3390/rs15010180
Delva, P., Altamimi, Z., Blazquez, A., Blossfeld, M., Böhm, J., Bonnefond, P., Boy, J. P., Bruinsma, S., Bury, G., Chatzinikos, M., Couhert, A., Courde, C., Dach, R., Dehant, V., Dell’Agnello, S., Elgered, G., Enderle, W., Exertier, P., Glaser, S., ... Zajdel, R. (2023). GENESIS: co-location of geodetic techniques in space. Earth, planets and space, 75(1), Artikel 5. https://doi.org/10.1186/s40623-022-01752-w
Feizi, M., Raoofian Naeeni, M., & Flury, J. (2023). Antarctic Time-Variable Regional Gravity Field Model Derived from Satellite Line-of-Sight Gravity Differences and Spherical Cap Harmonic Analysis. Remote sensing, 15(11), Artikel 2815. https://doi.org/10.3390/rs15112815
Begutachtete Konferenzbeiträge
Zeige Ergebnisse 21 - 30 von 142
2023
Knabe, A., Schilling, M., Wu, H., Hosseiniarani, A., Müller, J., Beaufils, Q., & Pereira Dos Santos, F. (2023). The Benefit of Accelerometers Based on Cold Atom Interferometry for Future Satellite Gravity Missions. In J. T. Freymueller, & L. Sánchez (Hrsg.), Geodesy for a Sustainable Earth - Proceedings of the 2021 Scientific Assembly of the International Association of Geodesy (S. 213-220). (International Association of Geodesy Symposia; Band 154). Springer Nature. https://doi.org/10.1007/1345_2022_151
Krawinkel, T., & Schön, S. (2023). On the Limits of State-of-the-Art GNSS Receivers in Frequency Transfer. In J. T. Freymueller, & L. Sánchez (Hrsg.), Geodesy for a Sustainable Earth - Proceedings of the 2021 Scientific Assembly of the International Association of Geodesy (S. 313-319). (International Association of Geodesy Symposia; Band 154). Springer, Cham. https://doi.org/10.1007/1345_2022_145
Lin, Q., & Schön, S. (2023). Feasibility of CSAC-Assisted GNSS Receiver Fingerprinting. In J. T. Freymueller, & L. Sánchez (Hrsg.), Gravity, Positioning and Reference Frames: Gravity, Geoid, and Height Systems 2022; IAG Commission 4: Positioning and Applications, 2022; REFAG2022: Reference Frames for Applications in Geosciences, 2022 (S. 93-100). (International Association of Geodesy Symposia; Band 156). Springer, Cham. https://doi.org/10.1007/1345_2023_221
Ruwisch, F., & Schön, S. (2023). GNSS Feature Map Aided RTK Positioning in Urban Trenches. In 2023 IEEE 26th International Conference on Intelligent Transportation Systems (ITSC) (S. 5798-5804). (IEEE Conference on Intelligent Transportation Systems). IEEE. https://doi.org/10.1109/itsc57777.2023.10422176
Su, J., Schön, S., & Joerger, M. (2023). Towards a set-based detector for GNSS integrity monitoring. In 2023 IEEE/ION Position, Location and Navigation Symposium (PLANS) (S. 421-429). (IEEE/ION Position Location and Navigation Symposium). IEEE. https://doi.org/10.1109/PLANS53410.2023.10139987
Wziontek, H., Falk, R., Pálinkáš, V., Engfeldt, A., Glässel, J., Hellerschmied, A., Iacovone, D., Kostelecky, J., Reich, M., Timmen, L., Ullrich, C., Valluzzi, A., & Zehetmaier, B. (2023). Comparisons of Absolute Gravimeters as a Key Component of the International Terrestrial Gravity Reference Frame (ITGRF) Shown on the Example of the WET-CAG2021 at Wettzell, Germany. In J. T. Freymueller, & L. Sánchez (Hrsg.), Gravity, Positioning and Reference Frames - Proceedings of the IAG Symposia - GGHS2022: Gravity, Geoid, and Height Systems 2022; IAG Commission 4: Positioning and Applications, 2022; REFAG2022: Reference Frames for Applications in Geosciences, 2022 (S. 29-36). (International Association of Geodesy Symposia; Band 156). Springer Science and Business Media Deutschland GmbH. https://doi.org/10.1007/1345_2023_226
2022
Icking, L., & Schön, S. (2022). Optimal Combination of Multi-Agent Smartphone GNSS Observations for Improved Collaborative Positioning in Urban Areas. In 35th International Technical Meeting of the Satellite Division of the Institute of Navigation, ION GNSS+ 2022 (S. 2828-2838). Institute of Navigation. https://doi.org/10.33012/2022.18554
Icking, L., Zhang, G., Hsu, L. T., & Schön, S. (2022). Quantification of GNSS NLOS Spatial Correlation: A Case Study in Hong Kong's Urban Canyon. In Proceedings of the 2022 International Technical Meeting of The Institute of Navigation, ITM 2022 (S. 712-722). (Proceedings of the International Technical Meeting of The Institute of Navigation, ITM; Band 2022-January). Institute of Navigation. https://doi.org/10.33012/2022.18165
Karimidoona, A., & Schön, S. (2022). Integrity Monitoring of Commercial RTK Receivers in Static Open Sky and Kinematic Urban Environments Scenarios. In Integrity Monitoring of Commercial RTK Receivers in Static Open Sky and Kinematic Urban Environments Scenarios (S. 819-834). (Proceedings of the International Technical Meeting of The Institute of Navigation, ITM; Band 2022-January). Institute of Navigation. https://doi.org/10.33012/2022.18201
Krawinkel, T., Elmaghraby, A., & Schön, S. (2022). Exploring the Technical Limits of GNSS-based Frequency Transfer. In Proceedings of the 53rd Annual Precise Time and Time Interval Systems and Applications Meeting (S. 188-198) https://doi.org/10.33012/2022.18288
Dissertationen
Zeige Ergebnisse 11 - 15 von 40
2023
Zhang, M. (2023). Characteristics and Benefits of Differential Lunar Laser Ranging. [Dissertation, Gottfried Wilhelm Leibniz Universität Hannover]. https://doi.org/10.15488/19427
2021
Darugna, F. (2021). Improving smartphone-based GNSS positioning using state space augmentation techniques. [Dissertation, Gottfried Wilhelm Leibniz Universität Hannover]. Leibniz Universität Hannover.
Dbouk, H. (2021). Alternative Integrity Measures Based on Interval Analysis and Set Theory. [Dissertation, Gottfried Wilhelm Leibniz Universität Hannover]. Leibniz Universität Hannover. https://publikationen.badw.de/en/047355182/pdf/CC%20BY
Ren, L. (2021). GPS-based Precise Absolute and Relative Kinematic Orbit Determination of Swarm Satellites under Challenging Ionospheric Conditions. [Dissertation, Gottfried Wilhelm Leibniz Universität Hannover]. Leibniz Universität Hannover.
2020
Garcia Fernandez, N. (2020). Simulation Framework for Collaborative Navigation: Development - Analysis - Optimization. [Dissertation, Gottfried Wilhelm Leibniz Universität Hannover]. Leibniz Universität Hannover. https://publikationen.badw.de/en/046924745/pdf/CC%20BY
Konferenzbeiträge (Paper, Poster, Präsentationen, Kurzfassungen)
Zeige Ergebnisse 21 - 30 von 324
2024
Kersten, T., Bilich, A., Sutyagin, I., & Schön, S. (2024). A Global Collaboration to Enhance GNSS Receiver Antenna Calibration: The IGS Antenna Ring Campaign. EGU General Assembly 2024, Wien, Österreich. https://doi.org/10.15488/17174
Kersten, T., Bilich, A., Sutyagin, I., & Schön, S. (2024). A Global Collaboration to Enhance GNSS Receiver Antenna Calibration: The IGS Antenna Ring Campaign. Abstract von EGU General Assembly 2024, Wien, Österreich. https://doi.org/10.5194/egusphere-egu24-17665
Kersten, T., Kröger, J., Breva, Y., Schön, S., Ramatschi, M., Bradke, M., & Männel, B. (2024). From Past to Present: Investigating Retrofitted GPS Antennas for Multi-GNSS Functionality. Postersitzung präsentiert bei IGS Symposium and Workshop 2024, Bern, Schweiz. https://doi.org/10.15488/17619
Kersten, T., Sutyagin, I., Bilich, A., & Schön, S. (2024). Uniting Global Efforts to Calibrate GNSS Antennas: Models, analyses and pilot results. IGS Symposium and Workshop 2024, Bern, Schweiz. https://doi.org/10.15488/17846
Kersten, T., Sutyagin, I., Bilich, A., & Schön, S. (2024). Uniting Global Efforts to Calibrate GNSS Antennas: Models, analyses and pilot results. Postersitzung präsentiert bei IGS Symposium and Workshop 2024, Bern, Schweiz. https://doi.org/10.15488/17845
Knabe, A., Schilling, M., Romeshkani, M., HosseiniArani, S. A., Fletling, N., Kupriyanov, A., Müller, J., Beaufils, Q., & Dos Santos, F. P. (2024). Cold Atom Interferometry Accelerometers for Future Satellite Gravity Missions. Abstract von Gravity, Geoid and Height Systems 2024 Symposium, Thessaloniki, Griechenland. https://doi.org/10.5194/egusphere-egu24-7350
Knabe, A., Schilling, M., Romeshkani, M., HosseiniArani, S. A., Fletling, N., Kupriyanov, A., Müller, J., Beaufils, Q., & Dos Santos, F. P. (2024). Cold Atom Interferometry Accelerometers for Future Satellite Gravity Missions. Abstract von EGU General Assembly 2024, Wien, Österreich. https://doi.org/10.5194/egusphere-egu24-7350
Krawinkel, T., Schön, S., Schroeder, J., Perschke, C., Wallat, C., Vennebusch, M., & Knöfel, C. (2024). PPP-RTK with SSR-Based Corrections via Digital Audio Broadcasting in Germany. 37nd International Technical Meeting of the Satellite Division of the Institute of Navigation, ION GNSS+ 2024, Baltimore, Maryland, USA / Vereinigte Staaten.
Kröger, J., Ren, L., Wübenna, J., Tripathi, V., Caizzone, S., & Schön, S. (2024). Impact of GNSS receivers on GNSS antenna performance prediction for automotive scenarios. NAVITEC 2024, Noordwijk, Niederlande. Vorabveröffentlichung online.
Kröger, J., Breva, Y., Kersten, T., & Schön, S. (2024). Recent Antenna Calibration Developments at IFE. Postersitzung präsentiert bei IGS Symposium and Workshop 2024, Bern, Schweiz. https://files.igs.org/pub/resource/pubs/workshop/2024/IGSWS-2024-PS0215-Kroger-Recent_Antenna_Calibration_Developments_at_IFE.pdf
Zeitschriftenartikel, Berichte, Preprints
Zeige Ergebnisse 21 - 30 von 70
2020
Viswanathan, V., Mazarico, E., Merkowitz, S., Williams, J. G., Turyshev, S. G., Currie, D. G., Ermakov, A. I., Rambaux, N., Fienga, A., Courde, C., Chabé, J., Torre, J.-M., Bourgoin, A., Schreiber, U., Eubanks, T. M., Wu, C., Dequal, D., Dell'Agnello, S., Biskupek, L., ... Kopeikin, S. (2020). Extending Science from Lunar Laser Ranging. Bulletin of the AAS, 53(4). https://doi.org/10.3847/25c2cfeb.3dc2e5e4
2019
Abdelaal, M. E. H., & Schön, S. (2019). Distributed Nonlinear Model Predictive Control for Connected Vehicles Trajectory Tracking and Collision Avoidance with Ellipse Geometry. In Proceedings of the 32nd International Technical Meeting of the Satellite Division of The Institute of Navigation (ION GNSS+ 2019) (S. 2100-2111). (Proceedings of the Satellite Division's International Technical Meeting). Institute of Navigation. https://doi.org/10.33012/2019.16911
Denker, H., Timmen, L., & Völksen, C. (2019). Report on levelling and GNSS results for stations on the MPQ campus in Garching. https://doi.org/10.15488/9163
Görres, B., Kersten, T., Schön, S., Zimmermann, F., & Wanninger, L. (2019). Zur Neubearbeitung des GNSS-Antennen-Merkblatts. In Qualitätssicherung geodätischer Mess- und Auswerteverfahren 2019: Beiträge zum 180. DVW-Seminar am 27. und 28. Juni 2019 in Stuttgart (S. 103-105). (Schriftenreihe des DVW; Band 95). Wissner Verlag. https://geodaesie.info/sites/default/files/privat/DVW_95_2019_QS_2019_FINAL_190624.pdf
Kersten, T., Weise, A., Timmen, L., Gabriel, G., Schön, S., & Vogel, D. (2019). Urbanes Monitoring erdfallinduzierter Deformationen: Grenzen und Chancen bei der Kombination von GNSS, Nivellement und Gravimetrie. In Tagungsband Geomonitoring 2019 (Band 2019, S. 49-61). (Tagungsreihe GeoMonitoring). Forschungsdaten-Repositorium der LUH. https://doi.org/10.15488/4512
Kersten, T., Weise, A., Timmen, L., Gabriel, G., & Vogel, D. (2019). Urbanes Monitoring erdfallinduzierter Deformationen: Grenzen und Chancen bei der Kombination von GNSS, Nivellement und Gravimetrie. Markscheidewesen, 126(2), 11-19.
Krawczyk, C., Dahm, T., Gabriel, G., Polom, U., Becker, D., Schön, S., Kersten, T., Timmen, L., Weise, A., Werban, U., Kaufmann, G., Börner, F., Mai, F., Romanov, D., & Schuck, A. (2019). Verbundprojekt SIMULTAN: Subrosion und Erdfall-Instabilität: integrierte multi-skalige Überwachung und Analyse: Schlussbericht zum BMBF-Verbundvorhaben - Förderkennzeichen FKZ 03G0843 (A bis J). TIB Leibniz-Informationszentrum Technik und Naturwissenschaften Universitätsbibliothek. https://doi.org/10.15488/5153
Müller, J., Hofmann, F., & Biskupek, L. (2019). Warum man den Abstand zum Mond misst. In Jahrbuch 2018 der Braunschweigischen Wissenschaftlichen Gesellschaft (Band 2018, S. 17-28). (Jahrbuch der Braunschweigischen Wissenschaftlichen Gesellschaft; Band 2018). Cramer. https://doi.org/10.24355/dbbs.084-201905071310-0
2018
Görres, B., Kersten, T., Schön, S., Zimmermann, F., Wanninger, L., Becker, M., Villiger, A., Mayer, M., & Kuhlmann, H. (2018). Berücksichtigung von Antennenkorrekturen bei GNSS-Anwendungen (Neubearbeitung): DVW-Merkblatt 1-2018. https://tu-dresden.de/bu/umwelt/geo/gi/gg/ressourcen/dateien/veroeffentlichungen/01_DVW-Merkblatt_Antennenkorrekturen-GNSS_2018_1.pdf?lang=de
Kersten, T., Ren, L., & Schön, S. (2018). A Virtual Receiver Concept for Continuous GNSS based Navigation of Inland Vessels. In Proceedings of Navitec (2018), 5.-7. December 2018, Noordwijk, The Netherlands https://doi.org/10.15488/3898
Software, Daten, sonstige Publikationen
-
(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, Forschungsdaten-Repositorium der Leibniz Universität Hannover
DOI: 10.25835/3h1r07a7 -
(2020): Dataset: LUH-GRACE-FO-2020, Data Repository Leibniz University Hannover Weitere Informationen
DOI: 10.25835/0062546 -
(2020): International Combination Service for Time-variable Gravity Fields (COST-G) Monthly GRACE-FO Series. V. 01, GFZ Data Services Weitere Informationen
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 Weitere Informationen
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
