IN31D-02
Real-Time and Near Real-Time Data for Space Weather Applications and Services
Wednesday, 16 December 2015: 08:15
2020 (Moscone West)
Howard J Singer1, Christopher C Balch1, Douglas Alan Biesecker2, Tomoko Matsuo3 and Terrance G Onsager4, (1)NOAA Boulder, Boulder, CO, United States, (2)NOAA Boulder, SWPC, Boulder, CO, United States, (3)University of Colorado, Boulder, CO, United States, (4)NOAA, Boulder, CO, United States
Abstract:
Space weather can be defined as conditions in the vicinity of Earth and in the interplanetary environment that are caused primarily by solar processes and influenced by conditions on Earth and its atmosphere. Examples of space weather are the conditions that result from geomagnetic storms, solar particle events, and bursts of intense solar flare radiation. These conditions can have impacts on modern-day technologies such as GPS or electric power grids and on human activities such as astronauts living on the International Space Station or explorers traveling to the moon or Mars. While the ultimate space weather goal is accurate prediction of future space weather conditions, for many applications and services, we rely on real-time and near-real time observations and model results for the specification of current conditions. In this presentation, we will describe the space weather system and the need for real-time and near-real time data that drive the system, characterize conditions in the space environment, and are used by models for assimilation and validation. Currently available data will be assessed and a vision for future needs will be given. The challenges for establishing real-time data requirements, as well as acquiring, processing, and disseminating the data will be described, including national and international collaborations. In addition to describing how the data are used for official government products, we will also give examples of how these data are used by both the public and private sector for new applications that serve the public.