References

Up: Terrestrial and planetary gravity Previous: Future Prospects

References

1: Anderson, J. D., J. W. Armstrong, J. K. Campbell, F. B. Estabrook, T. P. Krisher, and E. L. Lau, Gravitation and celestial mechanics investigations with Galileo, Space Sci. Rev., 60, 591-610, 1992.
2: Antreasian, P. G., J. B. Lundberg, and B. E. Schutz, Simulation of the GRM drag compensation system, J. Astron. Sci., 39(4), 487-518, 1991.
3: Banerdt, W. B., A. S. Konopliv, N. J. Rappaport, W. L. Sjogren, R. E. Grimm, and P. G. Ford, The isostatic state of Mead Crater, Icarus, 112(1), 117-129 1994.
4: Bell, R. G., Airborne geophysics, Rev. Geophys., this issue, 1995.
5: Bertiger, W. I., J. T. Wu, and S. C. Wu, Gravity field improvement using Global Positioning System data from TOPEX/Poseidon: A covariance analysis, J. Geophys. Res., 97(B2), 1965-1971, 1992.
6: Bertiger, W. I., Y. E. Bar-Sever, E. J. Christensen, E. S. Davis, J. R. Guinn, B. J. Haines, R. W. Ibanez-Meier, J. R. Jee, S. M. Lichten, W. G. Melbourne, R. J. Muellerschoen, T. N. Munson, Y. Vigue, S. C. Wu, T. P. Yunck, B. E. Schutz, P.A.M. Abusali, H. J. Rim, M. M. Watkins, and P. Willis, GPS precise tracking of TOPEX/POSEIDON: Results and implications, J. Geophys. Res., 99(C12), 24449-24464, 1994.
7: Bettadpur, S. V., B. E. Schutz, and J. B. Lundberg, Spherical harmonic synthesis and least squares computations in satellite gravity gradiometry, Bull. Geod., 66, 261-271, 1992.
8: Bindschadler, D. L., G. Schubert, and W. M. Kaula, Coldspots and Hotspots: Global tectonics and mantle dynamics of Venus, J. Geophys. Res., 97(E8), 13495-13532, 1992.
9: Bindschadler, D. L., G. Schubert, and P. G. Ford, Venus' center of figure-center of mass offset, Icarus, 111, 417-432, 1994.
10: Bills, B. G., and A. J. Ferrari, A harmonic analysis of lunar gravity, J. Geophys. Res., 85(B2), 1013-1025, 1980.
11: Blewitt, G., Advances in Global Positioning System Technology for geodynamics investigations: 1978-1992, AGU Crustal Dynamics Monogr. Contributions of Space Geodesy to Geodynamics: Technology, 25, 195-213, 1993.
12: Brozena, J. M., GPS and airborne gravimetry: Recent progress and future plans, Bulletin Geodesique, 65, 116-121, 1991.
13: Brozena, J. M., and M. Peters, Airborne gravity measurements at NRL, Proc. of Int. Symp. on Kinematic Systems in Geodesy, Geomatics and Navigation, M. E. Cannon and G. Lachapelle, eds., 495-506, The Univ. of Calgary, 1994.
14: Carter, W. E., G. Peter, G. S. Sasagawa, F. J. Klopping, K. A. Berstis, R. L. Hilt, P. Nelson, G. L. Christy, T. M. Niebauer, W. Hollander, H. Seeger, B. Richter, H. Wilmes, A. Lothammer, New Gravity Meter Improves Measurements, EOS Trans. AGU, 75(8), 90-92, 1994.
15: Chao, B. F., The Geoid and Earth Rotation, in Geoid and Its Geophysical Interpretations, edited by P. Vanicek and N. T. Christou, CRC Press, 285-298, 1993.
16: Chao, B. F., and A. Y. Au, Temporal variation of Earth's zonal gravitational field caused by atmospheric mass redistribution: 1980-1988, J. Geophys. Res., 96(B4), 6569-6575, 1991.
17: Chao, B. F., and R. Eanes, Global gravitational changes due to atmospheric mass redistribution as observed by Lageos' nodal residual, Geophys. J. Int., in press, 1995.
18: Christensen, E. J., B. J. Haines, K. C. McColl, and R. S. Nerem, Observations of geographically correlated orbit errors for TOPEX/Poseidon using the Global Positioning System, Geophys. Res. Lett., 21(19), 2175-2178, 1994.
19: Egbert, G. D., A. F. Bennett, and M. G. G. Foreman, TOPEX/POSEIDON tides estimated using a global inverse model, J. Geophys. Res., 99(C12), 24821-24852, 1994.
20: European Space Agency, The Solid-Earth Mission ARISTOTELES, Proceedings of an International Workshop, Anacapri, Italy, Sept. 23-24, C. Mattock, Ed., ESA SP-329, 137 pp., 1991.
21: Ford, P. G., and G. H. Pettengill, Venus topography and kilometer scale slopes, J. Geophys. Res., 97(E8), 13103-13114, 1992.
22: Forsberg, R. and J. Brozena, The Greenland airborne gravity project---comparison of airborne and terrestrial gravity data, Geodesy and Physics of the Earth, pp. 171-175, IAG Symposia, 112, edited by H. Montag and C. Reigber, Springer Verlag, Berlin, 1993.
23: Frey, H., J. Abshire, B. Bills, J. Connerney, B. Johnson, R. Langel, F. Lerch, S. Nerem, E. Pavlis, D. Skillman, D. Smith, P. Taylor, and C. Voorhies, GAMES: A gravity and magnetics experiment satellite for oceanography and solid Earth science, EOS Transactions, AGU, 74(16), 97, 1993.
24: Gleason, D. M., Obtaining Earth surface gravity disturbances from a GPS-based ``high-low'' satellite-to-satellite tracking experiment, Geophys. J. Int., 107, 13-23, 1991.
25: Hager, B. A., R. W. Clayton, M. A. Richards., R. P. Comer, and A. M. Dziewonski, Lower mantle heterogeneity, dynamic topography, and the geoid, Nature, 313, 541-545, 1985.
26: Ivins, E. R., C. G. Sammis, and C. F. Yoder, Deep mantle viscous structure with prior estimate and satellite constraint, J. Geophys. Res., 98(B3), 4579-4609, 1993.
27: Jekeli, C., The statistics of the Earth's gravity field: revisted, Manuscr. Geod., 16, 313-325, 1991.
28: Jekeli, C., A review of gravity gradiometer survey system data analysis, Geophysics, 58(4), 508-514, 1993.
29: Johnson, C. L., and D. T. Sandwell, Lithospheric flexure on Venus, Geophys. J. Int., 119, 627-647, 1994.
30: Kaula, W. M., Higher order statistics of planetary gravities and topographies, Geophys. Res. Lett., 20(23), 2583-2586, 1993.
31: Klopping, F. J., G. Peter, D. S. Robertson, Knute A. Berstis, R. E. Moose, and W. E. Carter, Improvements in absolute gravity observations, J. Geophys. Res., 96(B5), 8295-8303, 1991.
32: Kogan, M. G., and M. K. McNutt, Gravity field over northern Eurasia and variations in the strength of the upper mantle, Science, 259, 473, 1993.
33: Konopliv, A. S., W. L. Sjogren, R. N. Wimberly, R. A. Cook, A. Vijayaraghavan, A high resolution lunar gravity field and predicted orbit behavior, AAS/AIAA Astrodynamics Specialist Conference, Pap. # AAS 93-622, Victoria, B.C., August, 1993a.
34: Konopliv, A. S., N. J. Borderies, P. W. Chodas, E. J. Christensen, W. L. Sjogren, B. G. Williams, G. Balmino, and J. P. Barriot, Venus gravity and topography: 60th degree and order model, Geophys. Res. Lett., 20(21), 2403-2406, 1993b.
35: Konopliv, A. S., and W. L. Sjogren, Venus spherical harmonic gravity model to degree and order 60, Icarus, 112(1), 42-54 1994.
36: Kunz, L., R. S. Nerem, and R. H. Rapp, The role of satellite altimeter data in the joint DMA/GSFC project for improving the model of the Earth's gravitational field, EOS Transactions, 75(44), 155, Supplement, 1994.
37: Laxon, S., and D. McAdoo, ArCtic ocean gravity field derived from ERS-1 satellite altimetry, Science, 265,621-624, 1994.
38: Lerch, F. J., Optimum data weighting and error calibration for estimation of gravitational parameters, Bulletin Geodesique, 65, 44-52, 1991.
39: Lerch, F. J., J. G. Marsh, S. M. Klosko, E. C. Pavlis, G. B. Patel, D. S. Chinn, and C. A. Wagner, An improved error assessment for the GEM-T1 gravitational model, J. Geophys. Res., 96(B12), 20023-20040, 1991.
40: Lerch, F. J., R. S. Nerem, D. S. Chinn, J. C. Chan, G. B. Patel, and S. M. Klosko, New error calibration tests for gravity models using subset solutions with independent data: Applied to GEM-T3, Geophys. Res. Lett., 20(2), 249-252, 1993a.
41: Lerch, F. J., R. S. Nerem, B. H. Putney, S. M. Klosko, G. B. Patel, R. G. Williamson, H. B. Iz, J. C. Chan, E. C. Pavlis, Improvements in the Accuracy of Goddard Earth Models (GEM), AGU Crustal Dynamics Monograph, in Contributions of Space Geodesy to Geodynamics: Earth Dynamics, 24, pp 191-212, 1993b.
42: Lerch, F. J., H. B. Iz, and J. C. Chan, Gravity Model Solution Based Upon SLR Data Using Eigenvalue Analysis: Alternative Methodology, AGU Crustal Dynamics Monograph, in Contributions of Space Geodesy to Geodynamics: Earth Dynamics, 24, pp 213-219, 1993c.
43: Lerch, F. J., R. S. Nerem, B. H. Putney, T. L. Felsentreger, B. V. Sanchez, S. M. Klosko, G. B. Patel, R. G. Williamson, D. S. Chinn, J. C. Chan, K. E. Rachlin, N. L. Chandler, J. J. McCarthy, J. A. Marshall, S. B. Luthcke, D. E. Pavlis, J. W. Robbins, S. Kapoor, and E. C. Pavlis, Geopotential models from satellite tracking, altimeter, and surface gravity data: GEM-T3 and GEM-T3S, J. Geophys. Res., 99(B2), 2815-2839, 1994.
44: Livermore, R., D. McAdoo, and K. Marks, Scotia Sea tectonics from high-resolution satellite altimetry, Earth and Planet. Sci. Lett., 123, 255-268, 1994.
45: Ma, C., C. K. Shum, R. J. Eanes, and B. D. Tapley, Determination of ocean tides from the first year of TOPEX/POSEIDON altimeter measurements, J. Geophys. Res., 99(C12), 24809-24820, 1994.
46: Makedonskii, E. L., G. Balmino, V. F. Galazin, M. G. Kogan, M. K. McNutt, J. D. Fairhead, Gravity field over the former Soviet Union mapped, EOS Trans. AGU, 75(40), 463-464, 1994.
47: Marshall, J. A., and N. K. Pavlis, Ocean mass transport and its impact on temporal variations of the Earth's gravitational field, EOS Trans., AGU, 74(16), 102, 1993.
48: Marshall, J. A., S. M. Klosko, and J. C. Ries, Dynamics of SLR tracked satellites, Rev. Geophys., this issue, 1995.
49: McAdoo, D. C., and K. M. Marks, Resolving marine gravity with ERS1 satellite altimetry, Geophys. Res. Lett., 19, 2271-2274, 1992a.
50: McAdoo, D. C., and K. M. Marks, Gravity fields of the southern ocean from GEOSAT data, J. Geophys. Res., 97(B3), 3247-3260, 1992b.
51: McNamee, J. B., G. R. Kronschnabl, S. K. Wong, and J. E. Ekelund, A gravity field to support Magellan navigation and science at Venus, J. Astron. Sci., 40(1), 107-134, 1992.
52: McNamee, J. B., N. J. Borderies, W. L. Sjogren, Venus: Global gravity and topography, J. Geophys. Res., 98(E5), 9113-9128, 1993.
53: Melbourne, W. G., E. S. Davis, B. D. Tapley, and T. P. Yunck, The GPS flight experiment on TOPEX/POSEIDON, Geophys. Res. Lett., 21(19), 2171-2174, 1994.
54: Milbert, D. G., GEOID90, A high-resolution geoid for the United States, EOS, Trans. Am. Geophys. U., 72(49), 545, 554, 1991.
55: Milbert, D. G., and D. G. Schultz, GEOID93, A new geoid for the United States, EOS, Trans. Am. Geophys. U., 74(16), p. 96, 1993.
56: Mitrovica, J. X., J. L. Davis, and I. I. Shapiro, A spectral formalism for computing three-dimensional deformations due to surface loads 1. Theory, J. Geophys. Res., 99(B4), 7057-7073, 1994a.
57: Mitrovica, J. X., J. L. Davis, and I. I. Shapiro, A spectral formalism for computing three-dimensional deformations due to surface loads 2. Present day glacial isostatic adjustment, J. Geophys. Res., 99(B4), 7075-7101, 1994b.
58: Moody, M. V., and H. J. Paik, Gauss's law test of gravity at short range, Phys. Rev. Lett., 70(9), 1195-1198, 1993.
59: Nerem, R. S., B. G. Bills, and J. B. McNamee, A high resolution gravity model for Venus: GVM-1, Geophys. Res. Lett., 20(7), 599-602, 1993a.
60: Nerem, R. S., B. F. Chao, A. Y. Au, J. C. Chan, S. M. Klosko, N. K. Pavlis, and R. G. Williamson, Time variations of the Earth's gravitational field from satellite laser ranging to LAGEOS, Geophys. Res. Lett., 20(7), 595-598, 1993b.
61: Nerem, R. S., and C. J. Koblinsky, The geoid and mean ocean circulation, in Geoid and its Geophysical Interpretations, pp. 321-335, edited by P. Vanicek and N. T. Christou, CRC Press, 1993.
62: Nerem, R. S., F. J. Lerch, R. G. Williamson, S. M. Klosko, J. W. Robbins, and G. B. Patel, Gravity model improvement using the DORIS tracking system on the SPOT-2 satellite, J. Geophys. Res., 99(B2), 2791-2813, 1994a.
63: Nerem, R. S., F. J. Lerch, J. A. Marshall, E. C. Pavlis, B. H. Putney, B. D. Tapley, R. J. Eanes, J. C. Ries, B. E. Schutz, C. K. Shum, M. M. Watkins, S. M. Klosko, J. C. Chan, S. B. Luthcke, G. B. Patel, N. K. Pavlis, R. G. Williamson, Gravity model development for TOPEX/POSEIDON: Joint gravity models 1 and 2, J. Geophys. Res., 99(C12), 24421-24447, 1994b.
64: Nerem, R. S., F. J. Lerch, S. M. Klosko, G. B. Patel, R. G. Williamson, and C. J. Koblinsky, Ocean dynamic topography from satellite altimetry based on the GEM-T3 gravity model, Manuscr. Geod., 19, 346-366, 1994c.
65: Niebauer, T. M., and J. E. Faller, Continuous gravity observations using Joint Institute for Laboratory Astrophysics absolute gravimeters, J. Geophys. Res., 97, 12437-12456, 1992.
66: Nouel, F., J. Bardina, C. Jayles, Y. Labrune, and B. Truong, DORIS: A precise satellite positioning Doppler system, Astrodynamics 1987, 65, Adv. Astron. Sci., edited by J. K. Solder et al., pp. 311-320, 1988.
67: Peter, G., F. J. Klopping, G. S. Sasagawa, J. E. Faller, and T. M. Niebauer, Short- and long-term stability of the JILAG-4 absolute gravimeter, J. Geophys. Res., 98(B3), 4619-4626, 1993.
68: Phillips, R. J. and K. Lambeck, Gravity fields of the terrestrial planets: long-wavelength anomalies and tectonics, Rev. Geophys. Space Phys., 18, 27-76, 1980.
69: Phillips, R.J., Estimating lithospheric properties at Atla Regio, Venus, Icarus 112(1), 147-170, 1994
70: Rapp, R. H., Y. M. Wang, and N. K. Pavlis, The Ohio State 1991 geopotential and sea surface topography harmonic coefficient models, Rep. No. 410, Dept. Geod. Sci. and Surveying, Ohio State University, Columbus, Ohio, August, 1991.
71: Rapp, R. H., and T. Basic, Oceanwide gravity anomalies from GEOS-3, SEASAT and GEOSAT altimeter data, Geophys. Res. Lett., 19(19), 1979-1982, 1992.
72: Rapp, R. H., Global Geoid Determination, Geoid and its Geophysical Interpretations, pp. 57-76, edited by P. Vanicek and N. T. Christou, CRC Press, 1993a.
73: Rapp, R.H., Geoid undulation accuracy, IEEE Trans. on Geoscience and Remote Sensing, 31(2), 365-370, 1993b.
74: Rapp, R. H., and D. A. Smith, Preliminary estimates of Gulf Stream characteristics from TOPEX data and a precise gravimetric geoid, J. Geophys. Res., 99(C12), 24707-24724, 1994.
75: Rapp, R. H., and Y. M. Wang, Geoid undulation differences between geopotential models, Surveys in Geophysics, 14, 373-380, 1993.
76: Rapp, R. H., and Y. M. Wang, Dynamic topography estimates using Geosat data and a gravimetric geoid in the Gulf Stream region, Geophys. J. Int., 117, 511-528, 1994.
77: Rapp, R. H., and R. S. Nerem, A joint GSFC/DMA project for improving the model of the Earth's gravitational field, Joint Symposium of the International Gravity Commission and the International Geoid Commission, Graz, Austria, September 1994.
78: Rappaport, N., and J.J. Plaut, A 360-degree and -order model of Venus topography, Icarus, 112(1), 27-33, 1994.
79: Ray, R. D., Global ocean tide models on the eve of TOPEX/POSEIDON, IEEE Trans. Geosci. Remote Sens., 31, 355-364, 1993.
80: Reasenberg, R. D., and Z. M. Goldberg, High resolution gravity model for Venus, J. Geophys. Res., 97(E9), 14682-14690, 1992.
81: Ries, J. C., C. Huang, M. M. Watkins, and B. D. Tapley, Orbit determination in the relativistic geocentric reference frame, J. Astron. Sci., 39(2), 173-181, 1991.
82: Ries, J. C., R. J. Eanes, C. K. Shum, and M. M. Watkins, Progress in the determination of the gravitational coefficient of the Earth, Geophys. Res. Lett., 19(6), 529-531, 1992.
83: Rosborough, G. W., and F. G. Lemoine, Sensitivity studies of Mars orbiters for Mars gravity recovery, J. Astronaut. Sci., 39(3), 327-357, 1991.
84: Rosen, R. D., The axial momentum balance of the Earth and its fluid envelope, Surveys in Geophys., 14, 1-29, 1993.
85: Rubincam, D. P., B. F. Chao, and P. C. Thomas, The Gravitational Field of Deimos, Icarus, in review, 1994.
86: Sandwell, D. T., Antarctic marine gravity field from high density satellite altimetry, Geophys. J. Int., 109, 437, 1992.
87: Sandwell, D. T., M. M. Yale, and W. H. F. Smith, ERS1 Geodetic Mission reveals detailed tectonic structures, EOS Trans. AGU, 75(44), p. 155, 1994.
88: Sasagawa, G., and M. A. Zumberge, Absolute gravity measurements in California, 1984-1989, J. Geophys. Res., 96(B2), 2501-2513, 1991.
89: Schrama, E. J. O., and R. D. Ray, A preliminary tidal analysis of TOPEX/POSEIDON altimetry, J. Geophys. Res., 99(C12), 24799-24808, 1994.
90: Schubert, G., D. Limonadi, J. D. Anderson, J. K. Campbell, and G. Giampieri, Gravitational coefficients and internal structure of the icy Galilean satellites: an assessment of the Galileo orbiter mission, Icarus, 111, 433-440, 1994.
91: Schubert, G., W.B. Moore, and D.T. Sandwell, gravity over coronae and chasmata on Venus, Icarus, 112(1), 130-146, 1994.
92: Schutz, B. E., M. K. Cheng, R. J. Eanes, C. K. Shum, and B. D. Tapley, Geodynamic results from Starlette orbit analysis, AGU Crustal Dynamics Monogr. Contributions of Space Geodesy to Geodynamics: Earth Dynamics, 24, pp 175-190, 1993.
93: Schutz, B. E., B. D. Tapley, P. A. M. Abusali, and H. J. Rim, Dynamic orbit determination using GPS measurements from TOPEX/Poseidon, Geophys. Res. Lett., 21(19), 2179-2182, 1994.
94: Small, C., and D. T. Sandwell, A Comparison of Satellite and Shipboard Gravity Measurements in the Gulf of Mexico, Geophys., 57(7), 885-893, 1992.
95: Smrekar, S.E., Evidence for active Hotsposts on Venus from analysis of Magellan gravity data, Icarus, 112(1), 2-26, 1994.
96: Smith, D. E., F. J. Lerch, R. S. Nerem, M. T. Zuber, G. B. Patel, S. K. Fricke, and F. G. Lemoine, An improved gravity model for Mars: Goddard Mars Model 1, J. Geophys. Res., 98(E11), 20871-20889, 1993.
97: Tapley, B. D., C. K. Shum, D. N. Yuan, J. C. Ries, R. J. Eanes, M. M. Watkins and B. E. Schutz, The University of Texas Earth gravity field model, presented at IUGG XX General Assembly, IAG Symp. G3, Gravity Field Determination from Space and Airborne Measurements, Vienna, Austria, August 12-24, 1991.
98: Tapley, B. D., B. E. Schutz, R. J. Eanes, J. C. Ries, and M. M. Watkins, Lageos laser ranging contributions to geodynamics, geodesy, and orbital dynamics, AGU Crustal Dynamics Monograph, Contributions of Space Geodesy to Geodynamics: Earth Dynamics, 24, pp 147-173, 1993.
99: Tapley, B. D., M. M. Watkins, J. C. Ries, G. W. Davis, R. J. Eanes, S. R. Poole, H. J. Rim, B. E. Schutz, C. K. Shum, R. S. Nerem, F. J. Lerch, E. C. Pavlis, S. M. Klosko, N. K. Pavlis, and R. G. Williamson, The JGM-3 gravity model, Annales Geophysicae, 12, Suppl. 1, C192, 1994a.
100: Tapley, B. D., J. C. Ries, G. W. Davis, R. J. Eanes, B. E. Schutz, C. K. Shum, M. M. Watkins, J. A. Marshall, R. S. Nerem, B. H. Putney, S. M. Klosko, S. B. Luthcke, D. E. Pavlis, R. G. Williamson, and N. P. Zelensky, Precision orbit determination for TOPEX/POSEIDON, J. Geophys. Res., 99(C12), 24605-24618, 1994b.
101: Thomas, P. C., Planetary geodesy, Rev. Geophys., 182-187, 1991.
102: Thomas, P. C., Gravity, tides, and topography on small satellites and asteroids: application to surface features of the Martian satellites, Icarus, 105, 326-344, 1993.
103: Thomas, P. C., J. Veverka, D. Simonelli, P. Helfenstein, B. Carcich, M. J. S. Belton, M. E. Davies, and C. Chapman, The shape of Gaspra, Icarus, 107, 23-26, 1994.
104: Trupin, A. S., M. F. Meier, and J. M. Wahr, Effect of melting glaciers on the Earth's rotation and gravity field: 1965-1984, Geophys. J. Int., 108, 1-15, 1992.
105: Trupin, A. S., Effects of polar ice on the Earth's rotation and gravitational potential, Geophys. J. Int., 113, 273-283, 1993.
106: Wagner, C. A., C. K. Tai, and J. M. Kuhn, Improved M2 ocean tide from TOPEX/POSEIDON and Geosat altimetry, J. Geophys. Res., 99(C12), 24853-24866, 1994.
107: Wang, Y. M., Comments on the Proper Use of the terrain correction for the computation of height anomalies, Manscr. Geod., 18, 53-57, 1993a.
108: Wang, Y. M., On the optimal combination of potential coefficient model with terrestrial gravity data for FFT geoid computations, Manscr. Geod., 18, 406-416, 1993b.
109: Watkins, M. M., J. C. Ries, and G. W. Davis, Absolute positioning using DORIS tracking of the SPOT-2 satellite, it Geophys. Res. Lett., 19(20), pp. 2039-2042, 1992.
110: Watkins, M. M., and R. J. Eanes, Long term changes in the Earth's shape, rotation, and geocenter, Adv. Space Res., 13(11), (11)251-(11)255, 1993.
111: Wilmes, H., and C. Reigber, PRARE---Status and prospects, in Global Positioning System: An Overview, edited by Y. Bock and N. Leppard, IAG Symposia 102, 400-408, Springer-Verlag, 1989.
112: Wu, J. T., and T. P. Yunck, TOPEX orbit determination and gravity recovery using Global Positioning System data from repeat orbits, J. Geophys. Res., 97(B2), 1973-1979, 1992.
113: Yuan, D., The determination and error assessment of the Earth's gravity field model, PhD Dissertation, The Univ. of Texas at Austin, May, 1991.
114: Yunck, T. P., W. I. Bertiger, S. C. Wu, Y. Bar-Sever, E. J. Christensen, B. J. Haines, S. M. Lichten, R. J. Muellerschoen, Y. Vigue, and P. Willis, First assessment of GPS-based reduced dynamic orbit determination on TOPEX/Poseidon, Geophys. Res. Lett., 21(7), 541-544, 1994.
115: Zuber, M.T., D. E. Smith, F. G. Lemoine, and G. A. Neumann, The shape and internal structure of the Moon from the Clementine mission, it Science, 266, 1839-1843, 1994.