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Data, Innovation and Science Cluster
Find the activities you need.
Activity - Projects
Swarm DISC pre-study 5.1
Understanding the complex dynamics of neutral winds in the upper atmosphere is crucial for understanding thermosphere-ionosphere interactions. However, the limited availability of measurements and data coverage has hindered the comprehensive characterization of these winds.
Activity - Projects
SWESMAG
The project SWESMAG relies on magnetic field data from Swarm to investigate Space Weather (SWE) effects related to Geomagnetic Induced Currents (GICs), driven mainly by rapid variations of the ionospheric Polar Electrojet (PEJ) currents and quantified (loosely) by the variation of the horizontal ground magnetic field component dH/dt.
Activity - Projects
Monitoring of Ionospheric Gradients At Swarm (MIGRAS)
Precision and safety of life applications using trans-ionospheric signals require key information on space weather conditions in particular on the perturbation degree of the ionosphere.
Activity - Projects
ESA's multi-level global thermosphere data products consistent with Swarm and GRACE (-FO)
In this project, the possibility of using the space-based along-track Thermospheric Neutral Density (TND) estimates for generating the European Space Agency (ESA)'s Level 3 (L3) global multi-level TND data products is assessed.
Activity - Projects
Swarm-SWITCH
Space weather in the thermosphere-ionosphere can have a variety of adverse effects on technological systems, for example by affecting radio signals and satellite orbits.
Activity - Projects
Swarm Ionospheric Polar Electrodynamics
The goal of the Swarm ionospheric polar electrodynamics (SWIPE) project is to create and disseminate the most advanced models of high-latitude Joule dissipation, ionospheric convection, and ionospheric conductances.
Activity - Projects
Swarm Ion Temperature Estimation
The main objective of Swarm Ion Temperature Estimation (SITE) project is to estimate ion temperatures along the orbits of Swarm satellites using available LP electron density and temperature measurements, and numerical models.
Activity - Projects
Swarm LP Ion Drift and Effective Mass
The Swarm LP Ion Drift and Effective Mass (SLIDEM) project will augment Swarm's ability to measure the along-track component of ion drift, and assess the composition of ionospheric ions.
Activity - Projects
Plasmapause Related boundaries in the topside Ionosphere as derived from Swarm Measurements
In the project, Plasmapause Related boundaries in the topside Ionosphere as determined from Swarm Measurements (PRISM), the team develop products that characterise position of the plasmapause related phenomena in the topside ionosphere.
Activity - Projects
Dipolar Spherical Elementary Current Systems (DSECS) toolbox
The purpose of this project is to create a user-friendly version of a previously developed analysis method for estimating ionospheric currents at low and middle latitudes.
Activity - Projects
3D mantle conductivity
The 3D mantle conductivity project is part of the Swarm DISC (Data, Innovation and Science Cluster).
Activity - Projects
TOLEOS
The TOLEOS (Thermosphere Observations from Low-Earth Orbiting Satellites) project will produce thermosphere mass density observations from the accelerometer measurements of the GRACE, GRACE-FO, and CHAMP satellites.
Activity - Projects
TIRO
Topside Ionosphere Radio Observations from multiple LEO-missions (TIRO) project will provide two measurements from onboard instruments of LEO satellite missions: TEC (Total Electron Content) derived from GNSS signals, and electron density derived from KBR (K-Band Ranging) system observations.
Activity - Projects
Swarm-AuroraX
AuroraX-DISC activities is building directly on the Swarm-Aurora framework. The team will continue to evolve the metadata and summary data from the satellites and the ground-based (and ultimately space-based) imagers in response to suggestions by users.
Activity - Projects
SIFACIT
The project SIFACIT (Swarm Data Quality Investigation of Field-Aligned Current Products, Ionosphere, and Thermosphere Systems) focuses on the study of the Field-Aligned Currents.
Activity - Projects
Geomagnetic Virtual Observatories
Geomagnetic Virtual Observatories (GVO) project data products provide valuable information to those investigating magnetospheric and ionospheric magnetic signals on timescales of months and longer.
Activity - Projects
Ionospheric Plasma IRregularities characterised by the Swarm satellites
The IPIR project will develop a high-level, global product based on Swarm measurements that will characterise ionospheric irregularities and fluctuations, and address the needs of the users.
Activity - Projects
Average Magnetic field and Polar current System model
The AMPS project outcome is a new climatological model of polar ionospheric currents, based on magnetic field measurements from the CHAMP and Swarm satellites.
Activity - Projects
Auroral Electrojet and auroral Boundaries estimated from Swarm observations
In the Swarm-AEBS project, a set of new Swarm data products that characterise the auroral electrojets and auroral oval boundaries will be derived from Swarm magnetic field measurements.
Activity - Projects
Multi-Approach Gravity Field models from Swarm GPS data
Multi-Approach Gravity Field models from Swarm GPS data project aims to provide quality gravity field models from Swarm data that constitute an alternative and independent source of gravimetric data.