GPS-RO

References

 

Books

Alfred Kleusberg Peter J. G. Teunissen (Eds.): GPS for Geodesy: Lecture Notes in Earth sciences

B. Hofmann-Wellenhof, H. Lichtenegger, and J. Collins: Theory and Practice: Fourth, revised edition, Springer WienNew York

PL Publication : The Application of Spaceborne GPS to atmosppheric Limb Sounding and Global Change Monitoring: W. G. Melbourne: NASA

Main articles

Observing Earth's atmosphere with radio occultation measurements using the Global Positionning System: E. R. Kursinski, G. A. Hajj, J. T. Schofield, R. P. Linfield and K. R. Hardy

Derivation of atmospheric properties using a Radio Occultation technique: P. Hoeg, A. Haucecorne, G. Kirchengast,
S. Syndergaard, B. Belloull, R. Leitinger, W. Rothleitner: Solar-Terretrial Physics Division Danish Meteorological Institute

Limitation Induced by multipath: Mette Dahl Mortensen, Per Hoeg: Danish Meteorological Institute Denmark

Space Refractive tomography of the atmosphere: Modeling of direct and inverse problems: Max-Planck Institut fur Meteorlogie Report No. 210

Estimation of the accuracy of the atmospheric refractive index recovery from doppler shift measurements at frequencies used in the NAVSTAR system: V. V. Vorob'ev and T. G. Krasil'nikova: Physics of the atmosphere and ocean, English translation, Vol. 29, No 5, April 1994. RRussian edition: September-October 1993

Articles

GPS Occultations

Argus, D.F., and R.G. Gordon, (1991), No-Net-Rotation model of current plate velocities incorporating plate rotation model NUVEL-1, Geophys. Res. Lett., 18, 2039-2042.

Beutler, Gerhard, (1996), GPS Satellite Orbits, in Lecture Notes in Earth Sciences: GPS for Geodesy, ed. Alfred Kleusberg and Peter J.G. Teunissen, Springer Verlag, Berlin.

Beutler, Gerhard, (1996), The GPS as a tool in global geodynamics, in Lecture Notes in Earth Sciences: GPS for Geodesy, ed. Alfred Kleusberg and Peter J.G. Teunissen, Springer Verlag, Berlin.

Blewitt, G., (1989), Carrier phase ambiguity resolution for the Global Positioning System applied to geodetic baselines up to 2000 km, J. Geoph. Res., 94, 1187-1203.

Bock, Y., and Herring, T., (1993), Documentation for the GAMIT GPS Analysis Software Release 9.13, Massachusetts Institute of Technology and Scripps Institution of Oceanography).

Bock, Y., (1996), Reference Systems, in Lecture Notes in Earth Sciences: GPS for Geodesy, ed. Alfred Kleusberg and Peter J.G. Teunissen, Springer Verlag, Berlin.

Bock, Y., (1996), Medium distance GPS measurements, in Lecture Notes in Earth Sciences: GPS for Geodesy, ed. Alfred Kleusberg and Peter J.G. Teunissen, Springer Verlag, Berlin.

Davis, J.L., T.A. Herring, I.I. Shapiro, A.E.E. Rogers, G. Elgered, (1985), Geodesy by radio interferometry: Effects of atmospheric modeling errors on estimates of baseline length,

Radio Science, 20, 1593-1607.

Dixon, T.H. (1991), An introduction to the Global Positioning System and some geological applications, Rev. of Geoph., Vol. 29, No. 2, pp. 249-276.

Dong, D.-N., and Y. Bock, (1989), GPS network analysis with phase ambiguity resolution applied to crustal deformation studies in California, J. Geoph. Res. 94, p. 3949-3966.

European Space Agency, (1996), The Nine Candidate Earth Explorer Missions : Atmospheric Profiling Mission, ESA SP-1196(7).

Eyre, J.R. (1994), Assimilation of radio occultation measurements into a numerical weather prediction system, ECMWF Technical Memorandum No. 199.

Fang, P. and Y. Bock, (1996), Scripps Orbit and Permanent Array Center 1995 Report to IGS, in International GPS Service for Geodynamics 1995 Annual Report, Jet Propulsion Laboratory, Pasadena, Ca.

Feigl,K.L., R.W. King, T.A. Herring, and M. Rothacher, (1991), A scheme for reducing the effect of selective availability on precise geodetic measurements from the Global Positioning System., Geophys. Res. Let., 18, p.1289-1292.

Feigl, K., (1991), Geodetic Measurement of Tectonic Deformation in Central California, Ph. D. thesis, M.I.T., 223 pp.

Fleigel, H., T. Gallini and E. Swift, (1992), Global Positioning System radiation force model for geodetic applications, J. Geophys. Res., 97 (B1), pp. 559-568..

Genrich, J.F., and J.-B. Minster (1991), Ship navigation for geophysical applications using Kalman-filtered GPS fixes, Geophysics, Vol. 56, No. 12, pp. 1961-1970.

Gorbunov, M.E., and S.V. Sokolovsky, (1993), Remote sensing of refractivity from space for global observation of atmospheric parameters, Max-Planck-Institut fur Meteorologie Report No. 119, Hamburg.

Gorbunov, M.E., S.V. Sokolovsky, and L. Bengtsson, (1996), Space refractive tomography of the atmosphere : modeling of direct and inverse problems, Max-Planck-Institut fur Meteorologie Report No. 210, Hamburg.

Gorbunov, M.E., A.S. Gurvich, and L. Bengtsson, (1996), Advanced algorithms of inversion of GPS/MET satellite data and their application to reconstruction of temperature and humidity, Max-Planck-Institut fur Meteorologie Report No. 211, Hamburg.

GPS Interface Control Document, ICD-GPS-200.

Hardy, K.R., G.A. Hajj, E.R. Kursinski, (1994), Accuracies of atmospheric profiles obtained from GPS occultations, Int. J. of Satellite Communication, 12, p.463-473.

Herring, T.A., and D. Dong, (1994), Measurement of diurnal and semidiurnal rotational variations and tidal parameters of Earth, J. Geophy. Res., 99 (B9), pp.18051-18071.

Hoeg, P., A. Hauchecorne, G. Kirchengast, S. Syndergaard, B. Belloul, R. Leitinger, W. Rothleitner, (1995), Derivation of Atmospheric Properties Using a Radio Occultation Technique, ESA Contract Report ESTEC/11024/94/NL/CN.

Hofmann-Wellenhof, B., H. Lichtenegger, and J. Collins, (1993), GPS Theory and Practice, Springer-Verlag, New York, 355 pages.

Institute of Navigation, (1996), Proceedings of the ION -GPS-96, September 17-20, 1996, Kansas City, MO.

International Civil Aviation Organization, (1995), GLONASS Interface Control Document GNSSP/2-WP/66, Montreal, Canada, 14 Nov.

Ivanov, N., et al., (1995), Ways of GLONASS System Advancing, Proc ION GPS-95, Palm Springs, CA, Sep 12-15, 1995, p. 991-1011.

Kursinski, E.R., G.A. Hajj, K.R. Hardy, L.J. Romans, and J.T. Schofield (1995), Observing tropospheric water vapor by radio occultation using the global positioning system, Geoph. Res. Let., 22, p. 2365-2368.

Kursinski, E.R., G.A. Hajj, J.T. Schofield, R.P. Linfield, and K.R. Hardy (1997), Observing Earth’s atmosphere with radio occultation using the Global Positioning System, J. Geoph. Res., Vol.102, D19, p. 23429-23463.

Lebedev, M., et al., (1995), The GLONASS System Status and Prospects for Development, Proc. ION GPS-95, Palm Springs, CA, Sep 12-15, 1995.

Marini, J.W., C.W. Murray, (1974), Correction of radio range tracking data for atmospheric refraction at elevations above 10 degrees, unpublished memorandum.

Martinez, C.G., J.M. Dow, T. Martin-Mur, and M.A. Bayona-Perez, (1996), The GPS Receiver Network of ESOC: Malindi, Maspalomas, Kourou, Kiruna, Perth, and Villafranca, in International GPS Service for Geodynamics 1995 Annual Report, Jet Propulsion Laboratory, Pasadena, Ca.

Melbourne, W., R. Anderle, M. Feissel, R. King, D. McCarthy, D. Smith, B. Tapley, and R. Vicenty, (1983), Project MERIT Standards, Technical Note, U.S. Naval Observatory, Washington, D.C.

Melbourne, W.G., E.S. Davis, C.B. Duncan, G.A. Hajj, K.R. Hardy, E.R. Kursinski, T.K. Meehan, L.E.Young, and T.P. Yunck, (1994), The application of spaceborne GPS to Atmospheric Limb Sounding and Global Change Monitoring, JPL Publication 94-18, Pasadena, CA.

McCarthy, D.D., (ed.), (1992), IERS Standards 1992, IERS Technical Note 13, Observatoire de Paris, July 1992.

McCarthy, D.D., (ed.), (1995), ITRF94 in IERS Conventions 1995, IERS Technical Note 20, Observatoire de Paris.

McCarthy, D.D., (ed.), 1996, IERS Conventions 1996, IERS Technical Note 21, Observatoire de Paris, July 1996.

Misra, P., et al., (1993), GLONASS Performance in 1992: A Review, GPS World, May, 1993.

Misra, P., et al., (1994), SGS85-WGS84 Transformation, Manuscripta Geodaetica, Vol. 19, p. 300-308.

Misra, P., M. Pratt, R. Muchik, and B. Burke, (1995), GLONASS Performance in 1995: A Review, Electronic document, MIT Lincoln Laboatory, Lexington, MA 02173.

Pagiatakis, S.D., (1982), Ocean loading, body tides and polar motion effects on very long baseline interferometry, UNB Technical Rep. No. 2, Dept of Surv. Eng., Univ of New Brunswick, Fredericton, N.B.

Reshetnev, M.F, et al., (1995), The GLONASS and GLONASS-M Programs, Proc. ION GPS-95, Palm Springs, CA, Sep 12-15, 1995, p. 985-990.

Saastamoinen, J. (1972) Introduction to practical computation of astronomical refraction, Bull. Geod., 106, p.383-397.

Saastamoinen, J., Atmospheric correction for the troposphere and stratosphere in radio ranging of satellites, in The Use of Artificial Satellites for Geodesy, Geophys. Monogr. Ser., Vol. 15, edited by S.W. Henriksen et al., pp. 247-251, American Geophysical Union, Washington, D.C., 1972.

Scherneck, H.G., (1991), A parametrized solid earth tide model and ocean tide loading effects for global geodetic baseline measurements, Geophys. J. Int., 106, pp. 677-694.

Spofford, P. R., and B.W. Remondi, (1994) The National Geodetic Survey Standard GPS Format SP3.

Teunissen, P.J.G. and A. Kleursberg, (1996), GPS observation equations and positioning concepts, in Lecture Notes in Earth Sciences: GPS for Geodesy, ed. Alfred Kleusberg and Peter J.G. Teunissen, Springer Verlag, Berlin.

Truehaft, R.N., and G.E. Lanyi, (1986), The effect of the dynamic wet troposphere on VLBI measurements, Geodesy and Geophysics Preprint No. 141, Jet Propulsion Laboratory, Pasadena.

Vorob’ev, V.V., and T.G. Krasil’nikova, (1994), Estimation of the accuracy of the atmospheric refractive index recovery from doppler shift measurements at frequencies used in the NAVSTAR system, Physics of the Atmosphere and Ocean (English Translation), 29, 5, pp. 602-609.

Ware, R., M Exner, D. Feng, M. Gorbunov, K. Hardy, B. Herman, Y. Kuo, T. Meehan, W. Melbourne, C. Rocken, W. Schreiner, S. Sokolovskiy, F. Solheim, X. Zou, R. Anthes, S. Businger, and K. Trenberth, (1996), GPS sounding of the atmosphere from low earth orbit: preliminary results, Bull. Am. Met. Soc., 77, p.19-23.

Ware, R., et al., (1996), GRAS Sounding of the atmosphere from low earth orbit: Preliminary results, Bull. Am. Met. Soc., Vol 77, No. 1, p. 19-35.

Wu, S., W.I. Bertiger., and J. Wu., (1990), Minimizing selective availability error on TOPEX GPS measurements, Paper presented at the Astrodynamics Conference at Portland, Oregon.

Wu, J.T., S.C. Wu, G.A. Hajj, W.I. Bertiger, and S.M. Lichten, (1993), Effects of antenna orientation on GPS carrier phase, Manuscripta Geodaetica, 18, pp. 91-98.

Yunck, T. and S. Wu (1986), Non-dynamic decimeter tracking of earth satellites using the Global Positioning System, AIAA paper 86-0404, Reno, NV.

Yunck, T., W. Melbourne, and C.L. Thornton, (1985), GPS-based satellite tracking system for precise positioning, IEEE Trans. on Geoscience and Rem Sens., GE23, p.450-457.

Yunck, T.P., S-C. Wu, J-T. Wu, and C.L. Thornton, (1990), Precise tracking of remote sensing satellites with the Global Positioning System, IEEE Trans. on Geoscience and Remote Sensing, 28, p.108-116.

Zumberge, J., R. Neilan, G. Beutler, and J. Kourba; (1994), The International GPS service for geodynamics-benefits to users; Proc: Seventh Technical Meeting of the Institute of Navigation; Institute of Navigation; Salt Lake City; UT; p. 1663-1666.

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