RT @DgfiTum: New approach allows for the modeling of 4D electron density changes in the #Ionosphere caused by #SpaceWeather. It is based on…
RT @DgfiTum: New approach allows for the modeling of 4D electron density changes in the #Ionosphere caused by #SpaceWeather. It is based on…
We have something similar @ESOC (but we call it 3D). Looks very nice!
RT @DgfiTum: New approach allows for the modeling of 4D electron density changes in the #Ionosphere caused by #SpaceWeather. It is based on…
RT @DgfiTum: New approach allows for the modeling of 4D electron density changes in the #Ionosphere caused by #SpaceWeather. It is based on…
New approach allows for the modeling of 4D electron density changes in the #Ionosphere caused by #SpaceWeather. It is based on B-splines & constraint optimization and combines unevenly distributed global #GNSS & radio occultation data: https://t.co
RT @eps_tweet: [Full paper on Aeronomy] Ganesh Lalgudi Gopalakrishnan & Michael Schmidt (Published: 19 September 2022) Ionospheric electron…
RT @eps_tweet: [Full paper on Aeronomy] Ganesh Lalgudi Gopalakrishnan & Michael Schmidt (Published: 19 September 2022) Ionospheric electron…
RT @eps_tweet: [Full paper on Aeronomy] Ganesh Lalgudi Gopalakrishnan & Michael Schmidt (Published: 19 September 2022) Ionospheric electron…
[Full paper on Aeronomy] Ganesh Lalgudi Gopalakrishnan & Michael Schmidt (Published: 19 September 2022) Ionospheric electron density modelling using B-splines and constraint optimization https://t.co/EigAAsbKvb https://t.co/RAbIFxTwpB
Ionospheric electron density modelling using B-splines and constraint optimization https://t.co/5hZX5GA0NE