On the use of airborne gravimetry in gravity field modelling: Experiences from the AGMASCO project

Important areas of the earth are still not covered by accurate gravity measurements. The gravity field may be determined by using different techniques but airborne gravity surveying is becoming the most powerful tool available today. One of the main problems in airborne gravity is the separation of...

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Main Authors: Bastos, L., Cunha, S., Forsberg, René, Olesen, Arne Vestergaard, Gidskehaug, A., Timmen, L., Meyer, U.
Format: Article in Journal/Newspaper
Language:English
Published: 2000
Subjects:
Fram Strait
Online Access:https://orbit.dtu.dk/en/publications/27fdf269-10b2-43ea-ab39-58ead8ab1c9d
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spelling ftdtupubl:oai:pure.atira.dk:publications/27fdf269-10b2-43ea-ab39-58ead8ab1c9d 2023-05-15T16:18:08+02:00 On the use of airborne gravimetry in gravity field modelling: Experiences from the AGMASCO project Bastos, L. Cunha, S. Forsberg, René Olesen, Arne Vestergaard Gidskehaug, A. Timmen, L. Meyer, U. 2000 https://orbit.dtu.dk/en/publications/27fdf269-10b2-43ea-ab39-58ead8ab1c9d eng eng info:eu-repo/semantics/restrictedAccess Bastos , L , Cunha , S , Forsberg , R , Olesen , A V , Gidskehaug , A , Timmen , L & Meyer , U 2000 , ' On the use of airborne gravimetry in gravity field modelling: Experiences from the AGMASCO project ' , Physics and Chemistry of the Earth Part A-solid Earth and Geodesy , vol. 25 , no. 1 , pp. 1-7 . article 2000 ftdtupubl 2023-01-11T23:53:45Z Important areas of the earth are still not covered by accurate gravity measurements. The gravity field may be determined by using different techniques but airborne gravity surveying is becoming the most powerful tool available today. One of the main problems in airborne gravity is the separation of the vertical accelerations acting on the airborne platform from the natural gravity signal. With the advances in DGPS techniques new prospects arise for gravity field recovery which are of great importance for geodesy, geophysics oceanography and satellite navigation. Furthermore, airborne gravimetric measurements depend not only on the determination of the position but also on the attitude of the aircraft. Inertial systems can provide attitude as well as information on short-term accelerations, which are more problematic for the gravimeter. A proper integration of these systems may allow a further improvement of the whole technique where the quality of both the accelerometers and the gyros is the key sensing element. In the scope of the MAST III Project AGMASCO, an airborne geoid mapping system was successfully implemented in different aeroplanes. The characteristics of the aeroplane and the flight parameters play a major role in airborne measurements. Within AGMASCO the airborne system was applied both in a close and an open ocean (Skagerrak, Fram Strait and Azores) areas. The system proved to be a powerful tool in a variety of conditions. The results obtained showed that an accuracy better than 2mGal over 5 to 6 kilometres can be achieved. This was proven by comparison of the airborne data with ground truth and satellite data. This accuracy makes the system interesting for use in various applications including geophysical exploitation. Different hardware installations were experienced and the methods validated. Recovery of the gravity values directly from measurements with the Lacoste & Romberg air/sea gravimeter and from measurements with the inertial sensors was analysed. The potential of these sensors to ... Article in Journal/Newspaper Fram Strait Technical University of Denmark: DTU Orbit
institution Open Polar
collection Technical University of Denmark: DTU Orbit
op_collection_id ftdtupubl
language English
description Important areas of the earth are still not covered by accurate gravity measurements. The gravity field may be determined by using different techniques but airborne gravity surveying is becoming the most powerful tool available today. One of the main problems in airborne gravity is the separation of the vertical accelerations acting on the airborne platform from the natural gravity signal. With the advances in DGPS techniques new prospects arise for gravity field recovery which are of great importance for geodesy, geophysics oceanography and satellite navigation. Furthermore, airborne gravimetric measurements depend not only on the determination of the position but also on the attitude of the aircraft. Inertial systems can provide attitude as well as information on short-term accelerations, which are more problematic for the gravimeter. A proper integration of these systems may allow a further improvement of the whole technique where the quality of both the accelerometers and the gyros is the key sensing element. In the scope of the MAST III Project AGMASCO, an airborne geoid mapping system was successfully implemented in different aeroplanes. The characteristics of the aeroplane and the flight parameters play a major role in airborne measurements. Within AGMASCO the airborne system was applied both in a close and an open ocean (Skagerrak, Fram Strait and Azores) areas. The system proved to be a powerful tool in a variety of conditions. The results obtained showed that an accuracy better than 2mGal over 5 to 6 kilometres can be achieved. This was proven by comparison of the airborne data with ground truth and satellite data. This accuracy makes the system interesting for use in various applications including geophysical exploitation. Different hardware installations were experienced and the methods validated. Recovery of the gravity values directly from measurements with the Lacoste & Romberg air/sea gravimeter and from measurements with the inertial sensors was analysed. The potential of these sensors to ...
format Article in Journal/Newspaper
author Bastos, L.
Cunha, S.
Forsberg, René
Olesen, Arne Vestergaard
Gidskehaug, A.
Timmen, L.
Meyer, U.
spellingShingle Bastos, L.
Cunha, S.
Forsberg, René
Olesen, Arne Vestergaard
Gidskehaug, A.
Timmen, L.
Meyer, U.
On the use of airborne gravimetry in gravity field modelling: Experiences from the AGMASCO project
author_facet Bastos, L.
Cunha, S.
Forsberg, René
Olesen, Arne Vestergaard
Gidskehaug, A.
Timmen, L.
Meyer, U.
author_sort Bastos, L.
title On the use of airborne gravimetry in gravity field modelling: Experiences from the AGMASCO project
title_short On the use of airborne gravimetry in gravity field modelling: Experiences from the AGMASCO project
title_full On the use of airborne gravimetry in gravity field modelling: Experiences from the AGMASCO project
title_fullStr On the use of airborne gravimetry in gravity field modelling: Experiences from the AGMASCO project
title_full_unstemmed On the use of airborne gravimetry in gravity field modelling: Experiences from the AGMASCO project
title_sort on the use of airborne gravimetry in gravity field modelling: experiences from the agmasco project
publishDate 2000
url https://orbit.dtu.dk/en/publications/27fdf269-10b2-43ea-ab39-58ead8ab1c9d
genre Fram Strait
genre_facet Fram Strait
op_source Bastos , L , Cunha , S , Forsberg , R , Olesen , A V , Gidskehaug , A , Timmen , L & Meyer , U 2000 , ' On the use of airborne gravimetry in gravity field modelling: Experiences from the AGMASCO project ' , Physics and Chemistry of the Earth Part A-solid Earth and Geodesy , vol. 25 , no. 1 , pp. 1-7 .
op_rights info:eu-repo/semantics/restrictedAccess
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