Developing Priority Observational Requirements from Space Using Multi-Attribute Utility Theory

Autor:	Thomas H. Vonderhaar, Mark W. Maier, Steve Ackerman, William B. Gail, Michael J. Ford, Gerald Dittberner, Richard Edwing, Richard A. Anthes, Mitch Goldberg, Terrance Onsager, Steve Goodman, Christopher S. Velden, Robert Atlas, Pamela G. Emch, Christian D. Kummerow, Lisa W. Callahan, Kevin J. Schrab, James G. Yoe
Rok vydání:	2019
Předmět:	Prioritization Atmospheric Science 021103 operations research 010504 meteorology & atmospheric sciences Operations research Computer science Group (mathematics) 0211 other engineering and technologies 02 engineering and technology Space (commercial competition) 01 natural sciences Subject-matter expert Multi-attribute utility Observational study Period (music) 0105 earth and related environmental sciences
Zdroj:	Bulletin of the American Meteorological Society. 100:1753-1774
ISSN:	1520-0477 0003-0007
DOI:	10.1175/bams-d-18-0180.1
Popis:	Over a two-year period beginning in 2015, a panel of subject matter experts, the Space Platform Requirements Working Group (SPRWG), carried out an analysis and prioritization of different space-based observations supporting the National Oceanic and Atmospheric Administration (NOAA)’s operational services in the areas of weather, oceans, and space weather. NOAA leadership used the SPRWG analysis of space-based observational priorities in different mission areas, among other inputs, to inform the Multi-Attribute Utility Theory (MAUT)-based value model and the NOAA Satellite Observing Systems Architecture (NSOSA) study. The goal of the NSOSA study is to develop candidate satellite architectures for the era beginning in approximately 2030. The SPRWG analysis included a prioritized list of observational objectives together with the quantitative attributes of each objective at three levels of performance: a threshold level of minimal utility, an intermediate level that the community expects by 2030, and a maximum effective level, a level for which further improvements would not be cost effective. This process is believed to be unprecedented in the analysis of long-range plans for providing observations from space. This paper describes the process for developing the prioritized objectives and their attributes and how they were combined in the Environmental Data Record (EDR) Value Model (EVM). The EVM helped inform NOAA’s assessment of many potential architectures for its future observing system within the NSOSA study. However, neither the SPRWG nor its report represents official NOAA policy positions or decisions, and the responsibility for selecting and implementing the final architecture rests solely with NOAA senior leadership.
Databáze:	OpenAIRE
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