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Ramouz, Sabah, Safari, Abdoreza, Reguzzoni, Mirko, Rossi, Lorenzo. (1404). Investigation of the Consistency Between Anisotropic Covariance Structure of the Local Gravity Signal and the Mass Density through the Patch-wise Least Squares Collocation in Gravity Field Modelling. , 9(2), -. doi: 10.22059/eoge.2026.409762.1198
Sabah Ramouz; Abdoreza Safari; Mirko Reguzzoni; Lorenzo Rossi. "Investigation of the Consistency Between Anisotropic Covariance Structure of the Local Gravity Signal and the Mass Density through the Patch-wise Least Squares Collocation in Gravity Field Modelling". , 9, 2, 1404, -. doi: 10.22059/eoge.2026.409762.1198
Ramouz, Sabah, Safari, Abdoreza, Reguzzoni, Mirko, Rossi, Lorenzo. (1404). 'Investigation of the Consistency Between Anisotropic Covariance Structure of the Local Gravity Signal and the Mass Density through the Patch-wise Least Squares Collocation in Gravity Field Modelling', , 9(2), pp. -. doi: 10.22059/eoge.2026.409762.1198
Ramouz, Sabah, Safari, Abdoreza, Reguzzoni, Mirko, Rossi, Lorenzo. Investigation of the Consistency Between Anisotropic Covariance Structure of the Local Gravity Signal and the Mass Density through the Patch-wise Least Squares Collocation in Gravity Field Modelling. , 1404; 9(2): -. doi: 10.22059/eoge.2026.409762.1198

Investigation of the Consistency Between Anisotropic Covariance Structure of the Local Gravity Signal and the Mass Density through the Patch-wise Least Squares Collocation in Gravity Field Modelling

Earth Observation and Geomatics Engineering
دوره 9، شماره 2، اسفند 2025
نوع مقاله: Original Article
شناسه دیجیتال (DOI): 10.22059/eoge.2026.409762.1198
نویسندگان
Sabah Ramouz* 1؛ Abdoreza Safari1؛ Mirko Reguzzoni2؛ Lorenzo Rossi2
1Faculty of Surveying and Geospatial Information Engineering, School of Engineering, University of Tehran, Iran
2Department of Civil and Environmental Engineering (DICA), Politecnico di Milano, Milano, Italy
چکیده
Patch-wise Least Squares Collocation is introduced as a localized and optimized form of the conventional Least Squares Collocation method. It aims to mitigate the negative effects of the stationarity assumption and to better recover the high-frequency components of local signals. Conceptually, patching refers to the spatial subdivision of the study area into smaller regions, where local modelling within each patch reduces the error arising from assuming global stationarity. In Patch-wise Least Squares Collocation, inspired by the Remote–Compute–Restore concept, patching is performed by considering the spatial–spectral correspondence of the field. Accordingly, the patch dimensions are selected in proportion to the degree or order used in removing the long-wavelength components of the field.
Patch-wise Least Squares Collocation can also be implemented using anisotropic covariance functions. In this approach, for each patch, an anisotropic covariance is determined based on the observations within that region. Assuming local stationarity and anisotropy, the field is modelled in each patch independently of observations in other patches, and the estimated signal is represented as a vector of patch-wise estimates. In this regard, optimising the patching strategy in Patch-wise Least Squares Collocation is an attempt to enhance the gravity modelling. To do this, available geological and geophysical information could be useful resources to be used. As an initial try in this field, the anisotropic covariance derived from gravity anomalies and density anomalies are computed in a region in north-western of Iran. Results in this case study shows a considerable correlation between the anisotropy direction and elongation of these two covariances.
کلیدواژه‌ها
Patch-wise Least Squares Collocation؛ Remove-Compute-Restore؛ Local gravity field؛ Anisotropic covariance؛ Density anomaly
آمار
تعداد مشاهده مقاله: 11





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