Accuracy assessment of the SRTM2gravity high-resolution topographic gravity model in geoid computation

Bihter Erol*, Muhammed Raşit Çevikalp, Serdar Erol

*Bu çalışma için yazışmadan sorumlu yazar

Araştırma sonucu: ???type-name???Makalebilirkişi

1 Atıf (Scopus)

Özet

The accuracy of the SRTM2gravity high-resolution topographic gravity model is tested in this study. Complete Bouguer anomaly datasets calculated with classical formula in planar approximation and using the SRTM2gravity model in spherical approximation were compared in the study area. Two geoid models computed using free-air anomalies, which were restored from each Bouguer anomaly datasets, were compared to each other and they were validated at GPS/leveling points. In the mountainous part of the area, two geoid models differ by up to 4 cm. Following GPS/leveling validations, the geoid models provided nearly the same accuracy (∼4.2 cm). In conclusion, the accuracy of the SRTM2gravity model data was found sufficient to use in gravity reduction and it is recommended as a ready-to-use product in the area for gravity interpolation/gridding and geoid determination purposes.

Orijinal dilİngilizce
Sayfa (başlangıç-bitiş)546-556
Sayfa sayısı11
DergiSurvey Review
Hacim55
Basın numarası393
DOI'lar
Yayın durumuYayınlandı - 2023

Bibliyografik not

Publisher Copyright:
© 2023 Survey Review Ltd.

Finansman

The ITU General Research Project Department provided funding for the study under protocol number MGA-2018-41585. The SRTM2gravity high-resolution global model data was provided by Hirt et al. (), and the GPS/leveling data was provided by the ITU Geodesy Division. Using funding from the ITU General Research Project with the reference number MGA-2018-41592, gravity anomalies with a resolution of 30″ were acquired from the General Directorate of Mineral Research and Exploration. To compute gravity data interpolation and terrain correction, the GRAVSOFT software package was used. Geoid computations using the LSMSA method were performed using ITU-GRG software. The figures in this article were created using the Generic Mapping Tools (GMT) software. The editor’s and reviewers’ contributions to the article’s review process are greatly appreciated. This study was carried out within the scope of the general research project with number MGA-2018-41585 supported by Istanbul Technical University Scientific Research Projects Department (ITU-BAP). The ITU General Research Project Department provided funding for the study under protocol number MGA-2018-41585. The SRTM2gravity high-resolution global model data was provided by Hirt et al. (2019), and the GPS/leveling data was provided by the ITU Geodesy Division. Using funding from the ITU General Research Project with the reference number MGA-2018-41592, gravity anomalies with a resolution of 30″ were acquired from the General Directorate of Mineral Research and Exploration. To compute gravity data interpolation and terrain correction, the GRAVSOFT software package was used. Geoid computations using the LSMSA method were performed using ITU-GRG software. The figures in this article were created using the Generic Mapping Tools (GMT) software. The editor’s and reviewers’ contributions to the article’s review process are greatly appreciated.

FinansörlerFinansör numarası
ITU General Research ProjectMGA-2018-41592
ITU General Research Project Department
ITU Geodesy Division
Istanbul Technical University Scientific Research Projects Department
Bilimsel Araştırma Projeleri Birimi, İstanbul Teknik Üniversitesi

    Parmak izi

    Accuracy assessment of the SRTM2gravity high-resolution topographic gravity model in geoid computation' araştırma başlıklarına git. Birlikte benzersiz bir parmak izi oluştururlar.

    Alıntı Yap