Maximizing the value of Solar System data through Planetary Spatial Data Infrastructures
Abstract
Planetary spatial data returned by spacecraft, including images and higher-order products such as mosaics, controlled basemaps, and digital elevation models (DEMs), are of critical importance to NASA, its commercial partners and other space agencies. Planetary spatial data are an essential component of basic scientific research and sustained planetary exploration and operations. The Planetary Data System (PDS) is performing the essential job of archiving and serving these data, mostly in raw or calibrated form, with less support for higher-order, more ready-to-use products. However, many planetary spatial data remain not readily accessible to and/or usable by the general science user because particular skills and tools are necessary to process and interpret them from the raw initial state. There is a critical need for planetary spatial data to be more accessible and usable to researchers and stakeholders. A Planetary Spatial Data Infrastructure (PSDI) is a collection of data, tools, standards, policies, and the people that use and engage with them. A PSDI comprises an overarching support system for planetary spatial data. PSDIs (1) establish effective plans for data acquisition; (2) create and make available higher-order products; and (3) consider long-term planning for correct data acquisition, processing and serving (including funding). We recommend that Planetary Spatial Data Infrastructures be created for all bodies and key regions in the Solar System. NASA, with guidance from the planetary science community, should follow established data format standards to build foundational and framework products and use those to build and apply PDSIs to all bodies. Establishment of PSDIs is critical in the coming decade for several locations under active or imminent exploration, and for all others for future planning and current scientific analysis.
Keywords
Cite
@article{arxiv.2008.06171,
title = {Maximizing the value of Solar System data through Planetary Spatial Data Infrastructures},
author = {Jani Radebaugh and Bradley J. Thomson and Brent Archinal and Ross Beyer and Dani DellaGiustina and Caleb Fassett and Lisa Gaddis and Sander Goossens and Trent Hare and Jay Laura and Pete Mouginis-Mark and Andrea Naß and Alex Patthoff and Julie Stopar and Sarah Sutton and David Williams and Justin Hagerty and Louise Prockter},
journal= {arXiv preprint arXiv:2008.06171},
year = {2020}
}
Comments
8 pages, 0 figures. White paper submitted to the Planetary Science and Astrobiology Decadal Survey 2023-2032