GUVI

Global UltraViolet Imager

GUVI Biblio

Notice:

Clicking on the title will open a new window with all details of the bibliographic entry.
Clicking on the DOI link will open a new window with the original bibliographic entry from the publisher.
Clicking on a single author will show all publications by the selected author.
Clicking on a single keyword, will show all publications by the selected keyword.

Found 5 entries in the Bibliography.

Showing entries from 1 through 5

2016
Modeling the problem of low-orbital satellite UV-tomography of the ionosphere The results of modeling the direct and inverse problems of low-orbital satellite ultraviolet (UV) tomography of the ionospheric 135.6 OI volume emission rate are presented. The direct problem was solved with the orbital geometry of DMSP block 5D3 satellites with SSUSI and SSULI UV spectrographs among the other payloads, the real operating parameters of these instruments (the scan rate and the interval of scan angles), and the set of the model distributions of the volume emission rate that contain irregularities on various ... Nesterov, I.; Padokhin, A.; Andreeva, E.; Kalashnikova, S.; Published by: Moscow University Physics Bulletin Published on: 06/2016 YEAR: 2016 DOI: 10.3103/S0027134916030103
2013
Investigation of Auroral Structeres by Highorbital Radiotomography and Globalionospheric Maps during Current Cycle of Solar Activity Andreeva, ES; Kalashnikova, S; , Kunitsyn; Nesterov, IA; Tumanova, YS; Published by: Published on: YEAR: 2013 DOI:
2012
Total electron content mapping using global navigation satellite systems Kunitsyn, VE; Andreeva, ES; Nesterov, IA; Kalashnikova, SA; Padokhin, AM; Published by: Published on: YEAR: 2012 DOI:
2011
TEC studies by satellite navigation. Kunitsyn, VE; Andreeva, ES; Nesterov, IA; Kalashnikova, SA; Padokhin, AM; Published by: Published on: YEAR: 2011 DOI:
2010
Comparison of global ionospheric maps, high-orbital and low-orbital radio tomography. Observations on the GPS receivers networks which are being actively developed at present provide the input data for constructing global ionospheric maps (GIM) of the distributions of total electron content (TEC) in the ionosphere. The methods applied in the GIM construction at several data processing centers are different although all based on the common idea of finding the appropriate model parameters to fit the selected model of the vertical distribution of electron density to the observed GPS data. At the same time, th ... Kunitsyn, V.~E.; Andreeva, E.~S.; Nesterov, I.~A.; Kalashnikova, S.~A.; Padokhin, A.~M.; Published by: Published on: YEAR: 2010 DOI:

1