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Soluzioni indipendenti di reti GPS effettuate con vari programmi scientifici: l’importanza della divulgazione delle informazioni
Language
Italian
Obiettivo Specifico
1.9. Rete GPS nazionale
Status
Published
JCR Journal
N/A or not JCR
Peer review journal
Yes
Title of the book
Issue/vol(year)
91/(2011)
Publisher
INGV
Pages (printed)
1-19
Issued date
May 2011
Abstract
Nel presente lavoro vengono descritte le potenzialità del compensatore GLOBK di proprietà del MIT nella
combinazione e stabilizzazione di soluzioni derivanti da differenti standard di analisi dato di varie reti GPS.
Le grandi prestazioni garantite da questo metodo di compensazione permettono di ottenere risultati di alta
qualità e precisione pur disponendo di una potenza di calcolo limitata, caratteristica dei PC di nuova generazione e
medio-basso profilo. Nel lavoro sono descritti i risultati delle compensazioni in termini di campi di velocità
globali/regionali e serie temporali. Inoltre tutte le caratteristiche delle soluzioni finali quali: polo di rotazione,
definizione dei sistemi di riferimento, ecc sono facilmente ottenibili.
combinazione e stabilizzazione di soluzioni derivanti da differenti standard di analisi dato di varie reti GPS.
Le grandi prestazioni garantite da questo metodo di compensazione permettono di ottenere risultati di alta
qualità e precisione pur disponendo di una potenza di calcolo limitata, caratteristica dei PC di nuova generazione e
medio-basso profilo. Nel lavoro sono descritti i risultati delle compensazioni in termini di campi di velocità
globali/regionali e serie temporali. Inoltre tutte le caratteristiche delle soluzioni finali quali: polo di rotazione,
definizione dei sistemi di riferimento, ecc sono facilmente ottenibili.
References
Altamimi Z., Collilieux X., Legrand J., Garayt B., Boucher C.
(2007). ITRF2005: a new release of the International
Terrestrial Reference Frame based on time series of station
positions and Earth Orientation Parameters.
Journal of Geophysical Research, 112, B09401.
doi:10.1029/2007JB004949.
Altamimi Z., Collilieux X., Métivier L. (2011). ITRF2008: an
improved solution of the International terrestrial reference
frame. Journal of Geodesy, in press. doi:
10.1007/s00190-011-0444-4.
Avallone A., Selvaggi G., D’anastasio E., D’agostino N.,
Pietrantonio G., Riguzzi F., Serpelloni E., Anzidei
M., Casula G., Cecere G., D’ambrosio C., De
Martino P., Devoti R., Falco L., Mattia M., Rossi M.,
Obrizzo F., Tammaro U., Zarrilli L. (2010). The
RING network: improvements to a GPS velocity field in
the central Mediterranean. Annals of Geophysics, 53
(2). doi: 10.4401/ag-4549.
Baldi P., Casula G., Cenni N., Loddo F., Pesci A. (2009). GPSbased
monitoring of land subsidence in the Po Plain
(Northern Italy). Earth and Planetary Science
Letters, 288 (1-2), 204-212.
Berg H. (1948). Allgemeine Meteorologie. Dümmler Verlag,
Bonn, Germany.
Beutler G., Brockmann E., Gurtner W., Hugentobler U.,
Mervart L., Rothacher M. (1994). Extended orbit
modeling techniques at the CODE Processing Center of
the International GPS Service for Geodynamics (IGS):
theory and initial results. Manuscripta Geodetica,
19, 367–386.
Beutler G., Gurtner W., Rothacher M., Schildknecht T.,
Bauersima I. (1986). Evaluation of the March 1985:
HPBL test: Fiducial point concept versus free network
solutions. Presented at: AGU Fall Meeting, San
Francisco, CA, 13.
Blewitt J. (1993). Advances in global positioning system technology
for geodynamics investigations: 1978-1992. AGU
Crustal Dynamics Monogr. Contributions of Space
Geodesy to Geodynamics: Technol., 25, 195-213.
Bruyninx C. (2004). The EUREF Permanent Network: a multidi-sciplinary network serving surveyors as well as scientists.
GeoInformatics, 7, 32-35.
Casula G., Pesci A., Bianchi M.G., Ponzoni G. Loddo F.
(2009). La stazione GPS BLGN per il monitoraggio della
subsidenza. Rapporti Tecnici INGV, 100, 5-17.
Devoti R., Riguzzi F., Cuffaro M., Doglioni C. (2008). New
GPS constraints on the kinematics of the Apennines subduction.
Earth Planetary Science Letter, 273 (1-2),
163-174.
Dach R., Hugentobler U., Fridez P., Meindl M. (2007). Bernese
GPS Software Version 5.0. Astronomical Institute of
University of Berne, pp. 640.
Dong D., Herring T.A., King R.W. (1998). Estimating regional
deformation from a combination of space and terrestrial
geodetic data. Journal of Geodesy, 72 (4), 200-214.
Figurski M., Kamin’ski P., Kenyeres A. (2009). Preliminary
results of the complete EPN reprocessing computed by
the MUT EPN local analysis centre. Anno LXVIII –
Bollettino di Geodesia e Scienze Affini, 2.
Kenyeres A., Bruyninx C. (2004). Monitoring of the EPN
Coordinate Time Series for Improved Reference Frame
Maintenance. GPS Solutions, 8, 4, 200-209.
Kouba J, Heroux P. (2000). GPS Precise point positioning using
IGS orbit products. GPS Solutions, 5, 2, 12-28.
Herring T.A. (2003). MATLAB Tools for viewing GPS velocities
and time series. GPS Solutions, 7, 3, 194-199.
Herring T.A., King R.W., McClusky S.C. (2010a). GPS
Analysis at MIT, GAMIT Reference Manual, Release
10.4. (Department of Earth, Atmospheric, and
Planetary Sciences Massachusetts Institute of
Technology, Cambridge MA, USA). Accesso:
26/10/2010.
Herring T.A., King R.W., McClusky S.C. (2010b). Global
Kalman filter VLBI and GPS analysis program, GLOBK
Reference Manual, Release 10.4. Accesso: 26/10/2010.
Maechling P., Gupta V., Gupta N., Field E.H., Okaya D.,
Jordan T.H. (2005). Seismic Hazard Analysis Using
Distributed Computing. In: The SCEC Community
Modeling Environment. Seismological Research
Letters, 76 (2), 177-181. doi:10.1785/gssrl.76.2.177.
Mervart L. (1995). Ambiguity resolution techniques in geodetic
and geodynamic applications of the Global Positioning
System. Geod. Geophys. Arb. Schweiz, 53, pp. 15.
Mao A., Cristopher G., Harrison A., Dixon T. H. (1999).
Noise in GPS coordinate time series. Journal of
Geophysical Research, 104, B4, 2797-2816.
Niell A.E. (1996). Global mapping functions for the atmosphere
delay at radio wavelengths. Journal of Geophysical
Research, 101(B2), 3227-3246.
Schmid R., Rothacher M. (2003). Estimation of elevationdependent
satellite antenna phase center variations of
GPS satellites. Journal of Geodesy, 77.
doi:10.1007/s00190-003-0339-0.Serpelloni E., Perfetti P., Cavaliere A. (2009). Progettazione e
realizzazione di un computer-cluster per l’analisi di dati
GPS con i software Gamit e Qoca. Rapporti Tecnici
INGV, 93, pp. 17.
Wessel P., Smith W.H.F. (1998). Free software helps maps and
display data. EOS, 79 579.
Williams S. D. P., Bock Y., Fang P., Jamason P., Nikolaidis
R.M., Prawirodirdjo L., Miller M., Johnson D.J.
(2004). Error Analysis of continuous GPS position time
series. Journal of Geophysical Research, 109,
B03412. doi:10.1029/2003JB002471.
Williams S. D. P. (2008). CATS: GPS coordinates time series analysis
software. GPS Solutions, 12, 147–153.
Zumberge J.F., Helfin M.B., Jefferson D.C., Watkins M.M.,
Webb F.H. (1997). Precise point positioning for efficient
and robust analysis of GPS data from large networks.
Journal of Geophysical Research, 102, 5005-5017.
Zumberge J.F., Watkins M.M., Webb F.H. (1998).
Characteristics and applications of precise GPS clock
solutions every 30 seconds. JPL Technical Reports.
(2007). ITRF2005: a new release of the International
Terrestrial Reference Frame based on time series of station
positions and Earth Orientation Parameters.
Journal of Geophysical Research, 112, B09401.
doi:10.1029/2007JB004949.
Altamimi Z., Collilieux X., Métivier L. (2011). ITRF2008: an
improved solution of the International terrestrial reference
frame. Journal of Geodesy, in press. doi:
10.1007/s00190-011-0444-4.
Avallone A., Selvaggi G., D’anastasio E., D’agostino N.,
Pietrantonio G., Riguzzi F., Serpelloni E., Anzidei
M., Casula G., Cecere G., D’ambrosio C., De
Martino P., Devoti R., Falco L., Mattia M., Rossi M.,
Obrizzo F., Tammaro U., Zarrilli L. (2010). The
RING network: improvements to a GPS velocity field in
the central Mediterranean. Annals of Geophysics, 53
(2). doi: 10.4401/ag-4549.
Baldi P., Casula G., Cenni N., Loddo F., Pesci A. (2009). GPSbased
monitoring of land subsidence in the Po Plain
(Northern Italy). Earth and Planetary Science
Letters, 288 (1-2), 204-212.
Berg H. (1948). Allgemeine Meteorologie. Dümmler Verlag,
Bonn, Germany.
Beutler G., Brockmann E., Gurtner W., Hugentobler U.,
Mervart L., Rothacher M. (1994). Extended orbit
modeling techniques at the CODE Processing Center of
the International GPS Service for Geodynamics (IGS):
theory and initial results. Manuscripta Geodetica,
19, 367–386.
Beutler G., Gurtner W., Rothacher M., Schildknecht T.,
Bauersima I. (1986). Evaluation of the March 1985:
HPBL test: Fiducial point concept versus free network
solutions. Presented at: AGU Fall Meeting, San
Francisco, CA, 13.
Blewitt J. (1993). Advances in global positioning system technology
for geodynamics investigations: 1978-1992. AGU
Crustal Dynamics Monogr. Contributions of Space
Geodesy to Geodynamics: Technol., 25, 195-213.
Bruyninx C. (2004). The EUREF Permanent Network: a multidi-sciplinary network serving surveyors as well as scientists.
GeoInformatics, 7, 32-35.
Casula G., Pesci A., Bianchi M.G., Ponzoni G. Loddo F.
(2009). La stazione GPS BLGN per il monitoraggio della
subsidenza. Rapporti Tecnici INGV, 100, 5-17.
Devoti R., Riguzzi F., Cuffaro M., Doglioni C. (2008). New
GPS constraints on the kinematics of the Apennines subduction.
Earth Planetary Science Letter, 273 (1-2),
163-174.
Dach R., Hugentobler U., Fridez P., Meindl M. (2007). Bernese
GPS Software Version 5.0. Astronomical Institute of
University of Berne, pp. 640.
Dong D., Herring T.A., King R.W. (1998). Estimating regional
deformation from a combination of space and terrestrial
geodetic data. Journal of Geodesy, 72 (4), 200-214.
Figurski M., Kamin’ski P., Kenyeres A. (2009). Preliminary
results of the complete EPN reprocessing computed by
the MUT EPN local analysis centre. Anno LXVIII –
Bollettino di Geodesia e Scienze Affini, 2.
Kenyeres A., Bruyninx C. (2004). Monitoring of the EPN
Coordinate Time Series for Improved Reference Frame
Maintenance. GPS Solutions, 8, 4, 200-209.
Kouba J, Heroux P. (2000). GPS Precise point positioning using
IGS orbit products. GPS Solutions, 5, 2, 12-28.
Herring T.A. (2003). MATLAB Tools for viewing GPS velocities
and time series. GPS Solutions, 7, 3, 194-199.
Herring T.A., King R.W., McClusky S.C. (2010a). GPS
Analysis at MIT, GAMIT Reference Manual, Release
10.4. (Department of Earth, Atmospheric, and
Planetary Sciences Massachusetts Institute of
Technology, Cambridge MA, USA). Accesso:
26/10/2010.
Herring T.A., King R.W., McClusky S.C. (2010b). Global
Kalman filter VLBI and GPS analysis program, GLOBK
Reference Manual, Release 10.4. Accesso: 26/10/2010.
Maechling P., Gupta V., Gupta N., Field E.H., Okaya D.,
Jordan T.H. (2005). Seismic Hazard Analysis Using
Distributed Computing. In: The SCEC Community
Modeling Environment. Seismological Research
Letters, 76 (2), 177-181. doi:10.1785/gssrl.76.2.177.
Mervart L. (1995). Ambiguity resolution techniques in geodetic
and geodynamic applications of the Global Positioning
System. Geod. Geophys. Arb. Schweiz, 53, pp. 15.
Mao A., Cristopher G., Harrison A., Dixon T. H. (1999).
Noise in GPS coordinate time series. Journal of
Geophysical Research, 104, B4, 2797-2816.
Niell A.E. (1996). Global mapping functions for the atmosphere
delay at radio wavelengths. Journal of Geophysical
Research, 101(B2), 3227-3246.
Schmid R., Rothacher M. (2003). Estimation of elevationdependent
satellite antenna phase center variations of
GPS satellites. Journal of Geodesy, 77.
doi:10.1007/s00190-003-0339-0.Serpelloni E., Perfetti P., Cavaliere A. (2009). Progettazione e
realizzazione di un computer-cluster per l’analisi di dati
GPS con i software Gamit e Qoca. Rapporti Tecnici
INGV, 93, pp. 17.
Wessel P., Smith W.H.F. (1998). Free software helps maps and
display data. EOS, 79 579.
Williams S. D. P., Bock Y., Fang P., Jamason P., Nikolaidis
R.M., Prawirodirdjo L., Miller M., Johnson D.J.
(2004). Error Analysis of continuous GPS position time
series. Journal of Geophysical Research, 109,
B03412. doi:10.1029/2003JB002471.
Williams S. D. P. (2008). CATS: GPS coordinates time series analysis
software. GPS Solutions, 12, 147–153.
Zumberge J.F., Helfin M.B., Jefferson D.C., Watkins M.M.,
Webb F.H. (1997). Precise point positioning for efficient
and robust analysis of GPS data from large networks.
Journal of Geophysical Research, 102, 5005-5017.
Zumberge J.F., Watkins M.M., Webb F.H. (1998).
Characteristics and applications of precise GPS clock
solutions every 30 seconds. JPL Technical Reports.
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