A Fast Method for Calculation of Marine Gravity Anomaly

Gravity data have been playing an important role in marine exploration and research. However, obtaining gravity data over an extensive marine area is expensive and inefficient. In reality, marine gravity anomalies are usually calculated from satellite altimetry data. Over the years, numerous methods...

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Bibliographic Details
Published in:Applied sciences 2021-01, Vol.11 (3), p.1265
Main Authors: Fang, Yuan, He, Shuiyuan, Meng, Xiaohong, Wang, Jun, Gan, Yongkang, Tang, Hanhan
Format: Article
Language:English
Subjects:
Computer applications
Fourier transforms
Geoids
GPU parallel computing
Graphics processing units
Gravity anomalies
Marine environment
marine gravity anomaly
Methods
Model accuracy
Satellite altimetry
Satellites
Statistical analysis
the inverse Stokes formula method
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Summary:Gravity data have been playing an important role in marine exploration and research. However, obtaining gravity data over an extensive marine area is expensive and inefficient. In reality, marine gravity anomalies are usually calculated from satellite altimetry data. Over the years, numerous methods have been presented for achieving this purpose, most of which are time-consuming due to the integral calculation over a global region and the singularity problem. This paper proposes a fast method for the calculation of marine gravity anomalies. The proposed method introduces a novel scheme to solve the singularity problem and implements the parallel technique based on a graphics processing unit (GPU) for fast calculation. The details for the implementation of the proposed method are described, and it is tested using the geoid height undulation from the Earth Gravitational Model 2008 (EGM2008). The accuracy of the presented method is evaluated by comparing it with marine shipboard gravity data. Its efficiency is demonstrated through comparison with the conventional sequential method. The tests demonstrate that the proposed method can be employed for accurately calculating marine gravity anomalies and provides an advantage on computational efficiency.
ISSN:2076-3417
2076-3417
DOI:10.3390/app11031265