Science Platforms for Heliophysics Data Analysis

Monica G. Bobra; Will T. Barnes; Thomas Y. Chen; Mark C. M. Cheung,; Laura A. Hayes; Jack Ireland; Miho Janvier; Michael S. F. Kirk; James P.; Mason; Stuart J. Mumford; Paul J. Wright

arXiv:2301.00878·astro-ph.IM·January 4, 2023·1 cites

Science Platforms for Heliophysics Data Analysis

Monica G. Bobra, Will T. Barnes, Thomas Y. Chen, Mark C. M. Cheung,, Laura A. Hayes, Jack Ireland, Miho Janvier, Michael S. F. Kirk, James P., Mason, Stuart J. Mumford, Paul J. Wright

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TL;DR

This paper advocates for NASA to develop and sustain science platforms that facilitate interactive, scalable analysis of heliophysics data to enhance scientific discoveries from space-based observations.

Contribution

It proposes a strategic approach for NASA to support science platforms that improve data analysis capabilities in heliophysics.

Findings

01

Science platforms increase data analysis efficiency.

02

Supporting platforms maximizes scientific return.

03

Interactive tools enhance heliophysics research.

Abstract

We recommend that NASA maintain and fund science platforms that enable interactive and scalable data analysis in order to maximize the scientific return of data collected from space-based instruments.

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Taxonomy

TopicsGeophysics and Gravity Measurements · Solar and Space Plasma Dynamics