Processes
A designated procedure used to assign a number, term, or other symbols to a Phenomenon generating the Result; consists of Acquisitions and Computations.
63 processes
- ActivityIndicator: PCN
- Activity Indicator: Solar Active Region Classification
- AWDA VLF: Process of evaluating equatorial electron density using ground-based VLF magnetic antenna
- B0B1_qModel calculation
- Borowiec ionospheric scintillation measurements
- BSPM: 3D-Kinetic plasmasphere model
- DIDBase: Autoscaling GIRO ionograms
- DIDBase: Manual scaling of GIRO ionograms
- DTM2020-operational: semi-empirical thermosphere model
- EISCAT Svalbard Dynasonde observations
- EISCAT Svalbard Radar Standard Ionospheric Parameter Measurement
- EISCAT Tristatic UHF Vector Parameter Measurement
- EISCAT Tristatic VHF Vector Parameter Measurement
- EISCAT Tromso Dynasonde observations
- EISCAT UHF Standard Ionospheric Parameter Measurement
- EISCAT VHF standard Ionospheric Parameter Measurement
- EPB_detectionTool
- eSWua: Autoscaling ionograms
- eSWua: GNSS Scintillation Indices and Total Electron Content from 50 Hz receivers
- eSWua IONORING tool: composite process for the Short-Term Forecasting TEC maps over Italy
- eSWua IONORING tool: processing of the nowcasting TEC map over Italy (IONORING)
- eSWua IONOWORLD tool: composite process for the Long-term forecasting global TEC maps
- eSWua IONOWORLD tool: composite process for the nowcasting global TEC maps
- eSWua: Manual scaling ionograms
- EUHFORIA: Geoeffect Indices Kp, Dst, Dso
- EUHFORIA: Heliospheric wind and CME evolution
- Extreme Ultra Violet solar flux-rate generation using GNSS observations
- HF Communications: RayTRIX-CQP and IRTAM to synthesize oblique ionograms for a given radiolink
- hmF2_qModel calculation
- Hornsund ionospheric scintillation measurements
- Hp30 and ap30 indices
- Hp60 and ap60 indices
- IAP-P Doppler souder: process of acquiring spectrograms
- Ionosonde Hornsund, Svalbard
- Ionosonde Warsaw
- IPIM : Ionosphere-Plasmasphere IRAP Model
- IRI: 3D electron density computed from 2D anchor maps
- IRI: International Reference Ionosphere
- IRTAM: 3D global real-time map of ionospheric electron density using NECTAR assimilation technique
- Kp, ap, and Ap indices, F10.7 radio flux and sunspot numbe
- LOFAR Scintillation Spectrograms
- NEDM2020: ionosphere electron density model calculation
- NTCM G: Galileo single-frequency ionospheric corrections model calculation
- PL610 LOFAR station meaurements
- Process for the EIS foF2 Forecast Maps
- Process for the EIS foF2 Forecasts Over Digisonde Stations
- Process for the EIS foF2 Long Term Prediction Maps
- Process for the EIS foF2 Nowcast Maps
- Process for the EIS hmF2 Nowcast Maps
- Process for the EIS Ionospheric Alerts
- Process for the EIS Near Real-Time TEC Maps
- Process for the provision of EIS current ionospheric conditions at each ionosonde location
- Process of acquiring and autoscaling AT138 ionograms
- Process of acquiring and autoscaling ionograms of the European Ionosonde Network DIAS (European Digital upper Atmosphere Server) digisondes
- Process of providing the LSTID activity index by the TechTIDE European and South African Digisonde Network
- ROB-IONO multi-GNSS data processing for Space Weather
- SWIF Model
- Synthesis of the Electron Density Profile generation using GNSS observations from LEOs
- Synthesis of the Vertical Total Electron Content Map generation using GNSS observations
- T-FORS MSTID Climatology
- The 1D EDD version of the TaD Model
- Warsaw ionospheric scintillation measuremets
- WHISPER: Process of evaluating plasma frequency and density using relaxation sounders onboard the Cluster constellation