Gravity measurements in the Moscow gravity network
The metrological local precise gravity networks are created to calibrate relative gravimeters, to test absolute gravimeters (AG) and to improve methods of performing and processing gravity measurements. We report on the gravity measurements campaign in the Moscow Gravity Network in Spring 2015. The...
| Main Authors: | , , , , , , |
|---|---|
| Format: | Still Image |
| Language: | unknown |
| Published: |
Zenodo
2016
|
| Subjects: | |
| Online Access: | https://dx.doi.org/10.5281/zenodo.59096 https://zenodo.org/record/59096 |
| Summary: | The metrological local precise gravity networks are created to calibrate relative gravimeters, to test absolute gravimeters (AG) and to improve methods of performing and processing gravity measurements. We report on the gravity measurements campaign in the Moscow Gravity Network in Spring 2015. The major goals of this campaign were to determine: • linear scale-factors for relative gravimeters, • gravity at all stations w.r.t. International Comparisons of Absolute Gravimeters (ICAG2013), • offsets of the AG which did not participate in Russian–Finnish Comparisons of Absolute Gravimeters (RFCAG2013). : {"references": ["J. M\u00e4kinen. Gravity gradients above piers In absolute gravimetry: use remove-restore for the pier attraction. In IAG Symposium on Terrestrial Gravimetry: Static and Mobile Measurements TG-SMM2010, feb 2015", "E. Spiridonov, O. Vinogradova, E. Boyarskiy, and L. Afanasyeva. Atlantida3.1 2014 for windows: a software for tidal prediction. Bull. Inf. Mar\u00e9es Terrestres, 149:12063\u201312082, 2015.", "V. D. Yushkin, A. N. Sapunov, Y. F. Stus, E. N. Kalish, I. A. Bunin, and D. A. Nosov. Measurements with the new GABL-M field ballistic gravimeter under tundra conditions. Measurement Techniques54(10):1111\u20131116, 2012."]} |
|---|