Geoscience Reference
In-Depth Information
D. Dettmering, R. Heinkelmann, M. Schmidt. Systematic differences between VTEC obtained by
different space-geodetic techniques during CONT08.
J. Geod.,
85:443-451, 2011a.
D. Dettmering, M. Schmidt, R. Heinkelmann, andM. Seitz. Combination of different space-geodetic
observations for regional ionosphere modeling.
J. Geod.,
85: 989-998, 2011b.
G. Di Giovanni and S.M. Radicella. An analytical model of the electron density profile in the
ionosphere.
Adv. Space Res.,
10 (11): 27-30, 1990.
J.P. Dumont, V. Rosmorduc, N. Picot, S. Desai, H. Bonekamp, J. Figa, J. Lillibridge, andR. Scharroo.
OSTM/Jason-2 Products Handbook.
CNES and EUMETSAT and JPL and NOAA/NESDIS, 4th
Edition, August 2009.
J. Feltens,M. Angling, N. Jackson-Booth, N. Jakowski,M. Hoque, C.Mayer,M. Hernández-Pajares,
A. García-Rigo, R. Orús-Perez, A. Aragón-Angel, and M.J. Zornoza. GNSS contribution to next
generation global ionospheric monitoring. Technical report, ESA/ESOC Final Report, January
2010.
R. Fleury, F. Foucher, and P. Lassudrie-Duchesne. Global TEC measurements capabilities of the
DORIS system.
Adv. Space Res.,
11 (10): 1051-1054, 1991.
M. Fritsche, R. Dietrich, C. Knöfel, A. Rülke, and S. Vey. Impact of higher-order ionospheric terms
on GPS estimates.
Geophys. Res. Lett.
, 32, L23311, 2005
L.L. Fu, E.J. Christensen, C.A. Yamarone, M. Lefebvre, Y. Ménard, M. Dorrer, and P. Escudier.
Topex/Poseidon mission overview.
J. Geophys. Res.,
99 (C12):24369-24382, 1994.
M. Garcia-Fernandez, M. Hernández-Pajares, J.M. Juan, and J. Sanz. Performance of the improved
Abel transform to estimate electron density profiles from GPS occultation data.
GPS Solut,
9:
105-110, 2005.
G. K. Hartmann and R. Leitinger. Range errors due to ionospheric and tropospheric effects for
signal frequencies above 100 MHz.
Bull. Géod.,
58: 109-399, 1984.
M. Hawarey, T. Hobiger, and H. Schuh. Effects of the 2nd order ionospheric terms on VLBI
measurements.
Geophys. Res. Lett.,
32, L11304, 2005.
M. Hernández-Pajares. IGS Ionosphere WG Status Report: Performance of IGS Ionosphere TEC
map. Technical report, IGS Workshop, Bern, Switzerland, 2004.
M. Hernández-Pajares, J.M. Juan, and J. Sanz. Improving the Abel inversion by adding ground GPS
data to LEO radio occultation in ionospheric sounding.
Geophys. Res. Lett.,
27 (16): 2473-2476,
2000.
M. Hernández-Pajares, J.M. Juan, J. Sanz, and D. Bilitza. Combining GPS measurements and IRI
model values for space weather specification.
Adv. Space. Res.,
29 (6): 949-958, 2002.
T. Hobiger.
VLBI as tool to probe the ionosphere.
PhD thesis, Inst. of Geodesy and Geophysics,
Vienna Univ. of Technology, Austria, 2005.
T. Hobiger, T. Kondo, H. Schuh. Very long baseline interferometry as a tool to probe the ionosphere.
Radio Science,
41 (1): RS1006, 2006.
B. Hofmann-Wellenhof, H. Lichtenegger, and J. Collins.
GPS Theory and Practice.
Springer, Wien
New York, 2nd Edition, 1993.
ILRS. Jason2 satellite information. Website, 2011.
http://ilrs.gsfc.nasa.gov/satellite_missions/list_
D.A. Imel. Evaluation of the TOPEX/POSEIDON dual-frequency ionosphere correction.
J. Geo-
phys. Res.,
99 (12): 24895-24906, 1994.
ITU. ITU-R Recommendation, 2007.
http://www.itu.int/ITU-R
.
ITU. Radiocommunication sector. Website, 2011.
http://www.itu.int/oth/R0A04000018/en
.
N. Jakowski, R. Leitinger, andM. Angling. Radio occultation techniques for probing the ionosphere.
Annals of Geophysics,
Supplement to Vol. 47: 1049-1066, 2004.
N. Jakowski, A. Wehrenpfennig, S. Heise, C. Reigber, and H. Lühr. Status of ionospheric radio
occultation CHAMP data analysis and validation of higher level data products. In
1st CHAMP
Science Meeting,
Potsdam - Germany, 22-25 January 2002a.
N. Jakowski, A. Wehrenpfennig, S. Heise, CH. Reigber, H. Lühr, L. Grunwaldt, and T. Meehan.
GPS radio occultation measurements of the ionosphere from CHAMP early results.
Geophys.
Res. Lett.,
29 (10), 2002b.
