Das Relativgravimeter-Kalibriersystem Hannover für 10−4-Maßstabsbestimmungen

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Autoren

  • Ludger Timmen
  • Reinhard Falk
  • Gerald Gabriel
  • Alexander Lothhammer
  • Manuel Schilling
  • Detlef Vogel

Organisationseinheiten

Externe Organisationen

  • Bundesamt für Kartographie und Geodäsie (BKG)
  • Leibniz-Institut für Angewandte Geophysik (LIAG)
Forschungs-netzwerk anzeigen

Details

Titel in ÜbersetzungThe Relative Gravimeter Calibration System Hannover for 10−4 Scale Determination
OriginalspracheDeutsch
Seiten (von - bis)140-150
Seitenumfang11
FachzeitschriftAVN Allgemeine Vermessungs-Nachrichten
Jahrgang125
Ausgabenummer5
PublikationsstatusVeröffentlicht - 2018

Abstract

A best possible accuracy for the calibration of relative gravimeters is often required to achieve the objectives of state-geodetic and geo-scientific surveys. A scale inaccuracy for relative gravimeters of 1· 10−4 is striven for which allows, e. g., to detect small vertical movements of the Earth’s surface or to avoid misinterpretation of observations showing apparent variations due to uncertain calibration of the relative gravimeters. Recently, the Gravity Meter Calibration System Hannover has been improved with respect to its most important parts: the Harz calibration line (3 absolute gravimetric points) and the Vertical Gravimeter Calibration Line Hannover (VGCH, 20-storey building, 20 relative gravimetric points). For this Upgrade 2017, only “state-of-the-art” measurements with gravimeters from Scintrex (Canada) and ZLS Corporation (USA) have been used. For the two calibration lines, the Upgrade 2017 replaces the solution of 2004 which was based on measurements with LaCoste-Romberg instruments only. They were the measuring standard in the 70s and 80s. The older absolute gravity determinations in the Harz line have been completed with modern A10 observations in 2013. In the VGCH, the base connection 210– 370 (1st to 17th storey, elevator for transportation) has been obtained with a standard deviation of 11 nm/s2. The inaccuracy between adjacent points varies between 5 and 10 nm/s2 for the points below the 18th storey. The scale inaccuracy of the Harz calibration line as well as of the VGCH is estimated to be 2·10−4 (expanded uncertainty, confidence interval 95 %). A regular checking of the relative gravimeters with regard to instrumental air pressure effects and instrumentally caused scale instabilities is strongly recommended.

Schlagwörter

    Instrumental air pressure effect, Instrumental scale stability, Relative gravimeter calibration, Vertical Gravimeter Calibration Line Hannover

ASJC Scopus Sachgebiete

Zitieren

Das Relativgravimeter-Kalibriersystem Hannover für 10−4-Maßstabsbestimmungen. / Timmen, Ludger; Falk, Reinhard; Gabriel, Gerald et al.
in: AVN Allgemeine Vermessungs-Nachrichten, Jahrgang 125, Nr. 5, 2018, S. 140-150.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Timmen, L, Falk, R, Gabriel, G, Lothhammer, A, Schilling, M & Vogel, D 2018, 'Das Relativgravimeter-Kalibriersystem Hannover für 10−4-Maßstabsbestimmungen', AVN Allgemeine Vermessungs-Nachrichten, Jg. 125, Nr. 5, S. 140-150. <https://gispoint.de/artikelarchiv/avn/2018/avn-52018/4315-das-relativgravimeter-kalibriersystem-hannover-fuer-104-massstabsbestimmungen.html>
Timmen, L., Falk, R., Gabriel, G., Lothhammer, A., Schilling, M., & Vogel, D. (2018). Das Relativgravimeter-Kalibriersystem Hannover für 10−4-Maßstabsbestimmungen. AVN Allgemeine Vermessungs-Nachrichten, 125(5), 140-150. https://gispoint.de/artikelarchiv/avn/2018/avn-52018/4315-das-relativgravimeter-kalibriersystem-hannover-fuer-104-massstabsbestimmungen.html
Timmen L, Falk R, Gabriel G, Lothhammer A, Schilling M, Vogel D. Das Relativgravimeter-Kalibriersystem Hannover für 10−4-Maßstabsbestimmungen. AVN Allgemeine Vermessungs-Nachrichten. 2018;125(5):140-150.
Timmen, Ludger ; Falk, Reinhard ; Gabriel, Gerald et al. / Das Relativgravimeter-Kalibriersystem Hannover für 10−4-Maßstabsbestimmungen. in: AVN Allgemeine Vermessungs-Nachrichten. 2018 ; Jahrgang 125, Nr. 5. S. 140-150.
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T1 - Das Relativgravimeter-Kalibriersystem Hannover für 10−4-Maßstabsbestimmungen

AU - Timmen, Ludger

AU - Falk, Reinhard

AU - Gabriel, Gerald

AU - Lothhammer, Alexander

AU - Schilling, Manuel

AU - Vogel, Detlef

PY - 2018

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N2 - A best possible accuracy for the calibration of relative gravimeters is often required to achieve the objectives of state-geodetic and geo-scientific surveys. A scale inaccuracy for relative gravimeters of 1· 10−4 is striven for which allows, e. g., to detect small vertical movements of the Earth’s surface or to avoid misinterpretation of observations showing apparent variations due to uncertain calibration of the relative gravimeters. Recently, the Gravity Meter Calibration System Hannover has been improved with respect to its most important parts: the Harz calibration line (3 absolute gravimetric points) and the Vertical Gravimeter Calibration Line Hannover (VGCH, 20-storey building, 20 relative gravimetric points). For this Upgrade 2017, only “state-of-the-art” measurements with gravimeters from Scintrex (Canada) and ZLS Corporation (USA) have been used. For the two calibration lines, the Upgrade 2017 replaces the solution of 2004 which was based on measurements with LaCoste-Romberg instruments only. They were the measuring standard in the 70s and 80s. The older absolute gravity determinations in the Harz line have been completed with modern A10 observations in 2013. In the VGCH, the base connection 210– 370 (1st to 17th storey, elevator for transportation) has been obtained with a standard deviation of 11 nm/s2. The inaccuracy between adjacent points varies between 5 and 10 nm/s2 for the points below the 18th storey. The scale inaccuracy of the Harz calibration line as well as of the VGCH is estimated to be 2·10−4 (expanded uncertainty, confidence interval 95 %). A regular checking of the relative gravimeters with regard to instrumental air pressure effects and instrumentally caused scale instabilities is strongly recommended.

AB - A best possible accuracy for the calibration of relative gravimeters is often required to achieve the objectives of state-geodetic and geo-scientific surveys. A scale inaccuracy for relative gravimeters of 1· 10−4 is striven for which allows, e. g., to detect small vertical movements of the Earth’s surface or to avoid misinterpretation of observations showing apparent variations due to uncertain calibration of the relative gravimeters. Recently, the Gravity Meter Calibration System Hannover has been improved with respect to its most important parts: the Harz calibration line (3 absolute gravimetric points) and the Vertical Gravimeter Calibration Line Hannover (VGCH, 20-storey building, 20 relative gravimetric points). For this Upgrade 2017, only “state-of-the-art” measurements with gravimeters from Scintrex (Canada) and ZLS Corporation (USA) have been used. For the two calibration lines, the Upgrade 2017 replaces the solution of 2004 which was based on measurements with LaCoste-Romberg instruments only. They were the measuring standard in the 70s and 80s. The older absolute gravity determinations in the Harz line have been completed with modern A10 observations in 2013. In the VGCH, the base connection 210– 370 (1st to 17th storey, elevator for transportation) has been obtained with a standard deviation of 11 nm/s2. The inaccuracy between adjacent points varies between 5 and 10 nm/s2 for the points below the 18th storey. The scale inaccuracy of the Harz calibration line as well as of the VGCH is estimated to be 2·10−4 (expanded uncertainty, confidence interval 95 %). A regular checking of the relative gravimeters with regard to instrumental air pressure effects and instrumentally caused scale instabilities is strongly recommended.

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KW - Instrumental scale stability

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JO - AVN Allgemeine Vermessungs-Nachrichten

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