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Earth Rotation in the Erold Framework

Published online by Cambridge University Press:  12 April 2016

O. Calame
O. Calame*
Affiliation:
Centre d’Etudes et de Recherches Géodynamiques et Astronomiques Grasse, France

Extract

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The project EROLD (Earth Rotation from Lunar Distances) was conceived in 1974, in the COSPAR framework, with the goal of demonstrating that the lunar distances technique might be an efficient candidate in a new-generation service for the determination of Earth orientation.

Two years later, it was decided that the computations of the observational residuals and partial derivatives, as well as the analyses themselves, would be done at C.E.R.G.A. on a regular basis, for all the participating stations. Indeed, it was recognized to be important that all the observations be reduced in an homogeneous process. The target chosen for this program was that of Apollo XV which is the easiest to observe. Unfortunately, the operations could not start quickly due to a lack of observations and each station was encouraged to press the completion of the equipment, but many problems slowed the integration of these stations. Still now, only McDonald Observatory transmits observations regularly, and Orroral is operating, but with scattered results; presently this latter station is in course of modifications for improvement of accuracy.

Type
Part I
Information
International Astronomical Union Colloquium , Volume 63: High-Precision Earth Rotation and Earth-Moon Dynamics , May 1981 , pp. 41 - 51
Copyright
Copyright © Reidel 1982

References

Calame, O. and Guinot, B.: 1979, Annual Report for 1978, BIH, Paris Google Scholar
Calame, O.: 1980, Annual Report for 1979, BIH, Paris Google Scholar
Calame, O.: 1981, Annual Report for 1980, BIH, Paris Google Scholar
Calame, O.: 1982, these proceedings, 41-51, 233243.Google Scholar
Cartright, D. E. and Tayler, R. J.: 1970, J.G.R., 23, 4574 Google Scholar
Fliegel, H. F., Dickey, J. O. and J. G., Williams: 1982, these proceedings, 5388.Google Scholar
Langley, R. B., King, R. W., Morgan, P. J. and Shapiro, I. I.: 1982, these proceedings, 2529.Google Scholar
McClure, P.: 1973, Diurnal Polar Motion, Goddard Space Flight Center,Report X-592-73-259Google Scholar
Migus, A.: 1977, Theorie analytique de la libration physique de la Lune, Thesis, ParisCrossRefGoogle Scholar
Shelus, P. J.: 1976-1981, Lunar Laser Ranging Data Deposited in the NSSDC, series of reports, University of TexasGoogle Scholar
Valein, J-L.: 1979, Etude de la rotation de la Terre à partir des mesures Laser-Lune, Thèse de 3ième cycle, Paris Google Scholar
Woolard, E. W.: 1959, Astron. J., 64, 140 CrossRefGoogle Scholar