EASE-DGGS: a hybrid discrete global grid system for Earth sciences

Although we live in an era of unprecedented quantities and access to data, deriving actionable information from raw data is a hard problem. Earth observation systems (EOS) have experienced rapid growth and uptake in recent decades, and the rate at which we obtain remotely sensed images is increasing...

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Hauptverfasser:	Thompson, Jeffery A., Brodzik, Mary J., Silverstein, Kevin A. T., Hurley, Mason A., Carlson, Nathan L.
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Sprache:	eng
Schlagworte:	Science Policy Space Science
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creator	Thompson, Jeffery A. Brodzik, Mary J. Silverstein, Kevin A. T. Hurley, Mason A. Carlson, Nathan L.
description	Although we live in an era of unprecedented quantities and access to data, deriving actionable information from raw data is a hard problem. Earth observation systems (EOS) have experienced rapid growth and uptake in recent decades, and the rate at which we obtain remotely sensed images is increasing. While significant effort and attention has been devoted to designing systems that deliver analytics ready imagery faster, less attention has been devoted to developing analytical frameworks that enable EOS to be seamlessly integrated with other data for quantitative analysis. Discrete global grid systems (DGGS) have been proposed as one potential solution that addresses the challenge of geospatial data integration and interoperability. Here, we propose the systematic extension of EASE-Grid in order to provide DGGS-like characteristics for EOS data sets. We describe the extensions as well as present implementation as an application programming interface (API), which forms part of the University of Minnesota’s GEMS (Genetic x Environment x Management x Socioeconomic) Informatics Center’s API portfolio.
doi_str_mv	10.6084/m9.figshare.19102600
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identifier	DOI: 10.6084/m9.figshare.19102600
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subjects	Science Policy Space Science
title	EASE-DGGS: a hybrid discrete global grid system for Earth sciences
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