Geodesic
Planning and optimization of geodetic networks for determining fault movements
Atti della Accademia nazionale dei Lincei. Rendiconti della Classe di scienze fisiche, matematiche e naturali, Série 8, Tome 75 (1983) no. 3-4, pp. 127-143 Cet article a éte moissonné depuis la source Biblioteca Digitale Italiana di Matematica

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Le possibilità di applicazione delie moderne tecniche di ottimizzazione delle reti geodetiche, istituite per lo studio delle deformazioni del suolo in aree sismiche, vengono analizzate prendendo in considerazione vari parametri, quali la precisione, l’affidabilità, i costi e le indicazioni disponibili a priori sulle caratteristiche del fenomeno geofisico che si intende studiare. 
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     title = {Planning and optimization of geodetic networks for determining fault movements},
     journal = {Atti della Accademia nazionale dei Lincei. Rendiconti della Classe di scienze fisiche, matematiche e naturali},
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     language = {en},
     url = {http://geodesic.mathdoc.fr/item/RLINA_1983_8_75_3-4_a5/}
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Baldi, Paolo; Unguendoli, Marco; Gasperini, Paolo. Planning and optimization of geodetic networks for determining fault movements. Atti della Accademia nazionale dei Lincei. Rendiconti della Classe di scienze fisiche, matematiche e naturali, Série 8, Tome 75 (1983) no. 3-4, pp. 127-143. http://geodesic.mathdoc.fr/item/RLINA_1983_8_75_3-4_a5/

Baldi P. and Marson I. (1981) - Gravity and geodetic networks for the study of crustal deformations in seismic area. «Boll. Geod. Sc. Aff.», 3.

Baldi P. and Postpischl D. (1981) - Gravity Variations during pre-seismic crustal deformations. «Il Nuovo Cimento», 10.

Baldi P. and Unguendoli M. (1982) - Some problems in monitoring crustal deformation by geodetic methods. «Quaterniones Geodesiae », 3.

Brace W.F. (1965) — Some new measurements of linear compressiblity of rocks. «J. Geophys Res», 70.

Chimnery M.A. (1961) - The deformation of the ground around surfacefaults. «Bull. Seism. Soc. Am.», 51.

Crosilla F. (1982) - A criterion matrix for the second order design of control networks. Proceedings of the Meeting on Survey Control Networks, AAlborg, ASPW, München. | DOI | MR

Grafarend E. (1972) - Genavigkeitsmase geodatischer netze. Deutsche Geodatische Kommission, Reihe A, Heft 73, München. | Zbl

Holdahl S.R. (1980) - Crustal movements and redefinition of heights. Proceedings NAD Symposium, Ottawa.

Mahrer K.D. and Nur A. (1979) - Strike slip faulting in a downward varying crust. «J. Geophys. Res.», 84.

Mansinha L. and Smylie D.E. (1971) - The displacement fields of inclined faults. «Bull. Seism. Soc. Am.», 61. | Zbl

Maruyama T. (1964) - Statistical elastic dislocation in an infinite and semi-infinite medium. «Bull. Earthquake Res. Inst.», Tokyo Univ., 42. | MR

Marson I. and Morelli C. (1979)- A microgravimetric network for studying local gravity variations in North-eastern Italy (Friuli) connected with earthquake activity: institution of the net. «Boll. Geod. Sc. Aff.», 2.

Mchugh S. and Johnston M.J.S. (1979) - A review of Observations and dislocation modeling of some creep-related tilt perturbations from Central California. Proc. of the International Workshop on Monitoring Crustal Dynamics in Earthquake Zones, Strasbourg.

Meissner R. (1978) - What kind and what magnitude of creep movements take place at the earth's surface?, Proc. of the European Workshop on Space Oceanography, Navigation and Geodynamics, Germany, ESASP-137.

Owens J.C. (1967) - Optical refractive index of air: dependence on pressure, temperature and composition. «Appl. Opt.», 6.

Press F. (1965) - Displacements, strains and tilts at teleseismic distances. «J. Geophys. Res.», 70.

Rikitake I. (1976) - Earthquake Prediction. Elsevier, Amsterdam, Niederlande.

Rybiki K. and Kasahara K. (1977) - A Strike-slip fault in a laterally inhomogeneous medium, «Tectonophysics», 42.

Schmitt G. (1982) - Optimisation of geodetic networks. «Review of Geophysics and Space Physics», 4.

Slater L.E. and Huggett G.R. (1976) - A multiwavelength distance-measuring instrument for geophysical experiments. «J. Geophys. Res.», 35.

Stewart S.W. and O’Neil M.E. (1972) - Seismic travel times and near surface crustal velocity structure bounding the San Andreas Fault zone near Parkfield, «California, U.S. Geol. Surv. Prof. Pap.», 800-C, C117-C118.

Walsh J.B. and Rice J.R. (1979) - Local change in gravity resulting from deformation. «J. Geophys. Res.», 84.

Wimmer H. (1981) - Second order design of geodetic networks by an iterative approximation of a given criterion matrix, Proceedings of the IAG Symposium, München.