We describe the two real-time prediction tools, that have been developed in the framework of the HESPERIA - High Energy Solar Particle Events Forecasting and Analysis SWHV will therefore enable space weather forecasters.
With space weather relevant capabilities within a streamlined user interface. Space Weather Helioviewer is an extension of the JHelioviewer client application SSTL presents our radiation monitoring capabilities both current and upcoming with specifications and models of ourĬurrent radiation monitor, a presentation of data collected on orbit. Radiation Monitoring at Surrey Satellite Technology Ltd (SSTL) The Observatory of Paris (France) and the University of Alcala (Spain) are collaborating in the development of antennas Sudden Ionospheric Disturbances (SID) monitor Includes data from TRACE, CORONAS, STEREO, and SDO. MEDOC, originally created as a data and operations centre for SOHO, has become a thematic centre for solar physics and now MEDOC - Multi-Experiment Data and Operations Centre Related projects covering basic science to applications. Since the mid-eighties, the Royal Belgian Institute for Space Aeronomy (BIRA-IASB) has been active in Space Weather Space Weather Activities at the Royal Belgian Institute for Space Aeronomy The Solar Timelines viewer for AFFECTS (STAFF) is a dynamical online viewer that provides a whole range of timelines related to solar activity and space weather like. The STAFF viewer: a powerful tool for space weather forecasters and researchers The Real-Time Database for High-Resolution Neutron Monitor Measurements (NMDB).
The SSA Space Weather Coordination Centre (SSCC), located at the Space Pole in Belgium, is the focal point for Space WeatherĮnd-user support within the frame of ESA Space Situational Awareness (SSA) Program.įrom a single Neutron Monitor to an International Network: SSA Space Weather Coordination Center - SSCC Now part of ESA's Space Situational Awareness program, PROBA2 provides high cadence observations of the Sun. PROBA2 is a small ESA satellite with a scientific mission to explore the active Sun and its effect on the near-Earth space environment.
This process is experimental and the keywords may be updated as the learning algorithm improves.AVIDOS 2.0 - Forecasting and Nowcasting of Radiation Exposure On-Board AircraftĪVIDOS is a web service of the Seibersdorf Laboratories federated with ESA's Space Weather portal.ĪVIDOS is informational and educational online software for the assessment of cosmic radiation exposure at These keywords were added by machine and not by the authors. Such images can also be used to view the Sun when it is cloudy here on Earth. JHelioviewer 2.1.3 adds support for SDO/HMI data and features a new contrast filter, as well as an improved plugin to access the Heliophysics Event Knowledgebase (HEK). The idea is that amateurs can use these images to support their own observations and identify various features of the Sun’s active regions.
This chapter specifically focuses on satellite images and how to interpret them.
With advances in computer technology, images provided by these satellites are now posted daily on the internet and these images are available for use by professional and amateur solar astronomers, thanks to institutions supported by NASA and ESA. A lot of information about the Sun has originated from space probes or satellites that orbit Earth or are in orbit between the Sun and Earth.