gpscope-DT UPS 855

convertToRinex (Trimble) sous Linux

Olivier Charade — 2022-06-21T18:57:31Z

Patrice Ulrich partage la mÃ©thode qu'il a utilisÃ©e pour disposer de cet utilitaire sous Linux

Publications

Alexis Rigo — 2021-04-15T17:16:16Z

2020

Articles

Jouanne, F., Munawar, N, Mugnier, J.L., Ahmed, A., Awan, A. A., Bascou, P., Vassallo, R., (2020). Seismic coupling quantified on inferred dÃ©collements beneath the western syntaxis of the Himalaya, Tectonics, 39, 9, e2020TC006122, https://doi.org/10.1029/2020TC006122.

Reinoza, CE, Audemard, FA, Jouanne, F, Pousse-BeltrÃ¡n, L., Beck, C., (2020). Strain calculations of active tectonic blocks in northeastern Venezuela from GNSS analysis, Journal of South American Earth Sciences, 102, 102661, https://doi.org/10.1016/j.jsames.2020.102661

2019

Articles

Bonnefond, P., Exertier, P., Laurain, O., Guinle, T., FeÌ meÌ nias, P. (2019) Corsica : A 20-Yr Multi-Mission Absolute Altimeter Calibration Site, Advances in Space Research, Special Issue Â« 25 Years of Progress in Radar Altimetry Â », doi : 10.1016/j.asr.2019.09.049.

Jouanne, F., Gajurel, A., Mugnier, J. L., Bollinger, L., Adhikari, L. B., Koirala, B., Cotte N.,Bhattarai R, Bascou P. Huyghe, P. (2019). Postseismic deformation following the April 25, 2015 Gorkha earthquake (Nepal) : afterslip versus viscous relaxation. J. Asian Earth Sci., 176, 105-119.

Khorrami, F., Vernant, P., Masson, F., Nilfouroushan, F., Mousavi, Z., Nankali, H., et al. (2019). An up-to-date crustal deformation map of Iran using integrated campaign-mode and permanent GPS velocities. Geophys. J. Int., 217(2), 832â€“843. http://doi.org/10.1093/gji/ggz045.

Masson, C., Mazzotti, S., Vernant, P. (2019). Precision of continuous GPS velocities from statistical analysis of synthetic time series, Solid Earth, 10, 329-342, doi : 10.5194/se-10-329-2019

Masson, C., Mazzotti, S., Vernant, P., & Doerflinger, E. (2019). Extracting small deformation beyond individual station precision from dense Global Navigation Satellite System (GNSS) networks in France and western Europe. Solid Earth, 10(6), 1905â€“1920. http://doi.org/10.5194/se-10-1905-2019.

Masson, C., Mazzotti, S., Vernant, P., & Doerflinger, E. (2019). Extracting small deformation beyond individual station precision from dense GNSS networks in France and Western Europe, Solid Earth Discussions

2018

Articles

Cortes-Aranda, J ; Vassallo, R ; Jomard, H ; Pousse-Beltran, L ; Astudillo, L ; Mugnier, JL ; Jouanne, F ; Malik, M ; Carcaillet, J. (2018) Late quaternary out-of-sequence deformation in the innermost Kangra Reentrant, NW Himalaya of India : Seismic potential appraisal from Be-10 dated fluvial terraces. J. Asian Earth Sci., 158, 140-152.

Klein, E., Duputel, Z., Zigone, D., Vigny, C., Boy, J-P., Doubre, C., Meneses, G., 2018. Recurrent deep slow slip detected by survey GPS in the Atacama Desert, Chile, Geophys. Res. Lett., 45, 12263-12273, doi:10.1029/2018gl080613.

Klein, E., MÃ©tois, M., Meneses, G., Vigny, C., Delorme, A., 2018. Bridging the gap between North and Central Chile : insight from new GPS data on coupling complexities and the Andean sliver motion, Geophys. J. Int., 213 (3), 1924â€“1933, doi : 10.1093/gji/ggy094.

Tammaro, U., Riccardi, U., Masson, F., Capuano, P., Boy, J.P., 2018. Atmospheric Precipitable Water in Somma-Vesuvius Area During Extreme Weather Events from Ground-Based GPS Measurements, in : Freymueller J.T., SÃ¡nchez L. (eds) International Symposium on Earth and Environmental Sciences for Future Generations. International Association of Geodesy Symposia, Springer, 147, 293-302.

Walpersdorf, A., Pinget, L., Vernant, P., Sue, C., Deprez, A., the RENAG team, 2018. Does Long-Term GPS in the Western Alps Finally Confirm Earthquake Mechanisms ? Tectonics, 37(10), 3721â€“3737. http://doi.org/10.1029/2018TC005054.

2017

Articles

Abraha, K., Teklemarian, E.L., Masson, F., Doubre, C. Boy, J.-P., 2017. Spatiotemporal variations of water vapour content over Ethiopia : A study using GPS observations and ECMWF model, GPS Solutions, 21, 89â€“99.

Doubre, C., DÃ©prez, A., Masson, F., Socquet, A., Lewi, E., Grandin, R., Nercessian, A., Ulrich, P., de Chabalier, J.-B., Saad, I., Abayazid, A., Peltzer, G., Delorme, A., Calais, E. Wright, T., 2017. Current deformation in Central Afar and triple junction kinematics deduced from GPS and InSAR measurements, Geophys. J. Int., 208 (2) : 936-953.

Jouanne F, Mugnier JL, Sapkota SN, Bascou P, Pecher A., 2017. Estimation of coupling along the Main Himalayan Thrust in the central Himalaya, Journal of Asian Earth Sciences, 133, 62-71.

Klein, E., Vigny, C., Fleitout, L., Grandin, R., Jolivet, R., Rivera, E., & MÃ©tois, M., 2017. A comprehensive analysis of the Illapel 2015 Mw8.3 earthquake from GPS and InSAR data. Earth Planet. Sci. Lett., 469, 123-134, https://doi.org/10.1016/j.epsl.2017.04.010

Nocquet, J. M., Jarrin, P., VallÃ©e, et al., 2017. Supercycle at the Ecuadorian subduction zone revealed after the 2016 Pedernales earthquake. Nature Geoscience, 10, 145-149.

Communications

Khorrami, F., Masson, F., Nilfouroushan, F., Vernant, P., Saadat, S., Nankali, H., Hosseini, S., Aghamohamadi, A., An up-to-date GPS velocity field of Iran, EGU Meeting, Vienna, 2017.

Masson F., E. Klein, F. Rembert, M. Peyret, Z. Duputel, P. Ulrich, Lateral variations of the behavior of the North Anatolian Fault from the Marmara Sea to the Karliova Triple Junction using geodetic data, AGU Meeting, Nouvelle OrlÃ©ans, 2017.

Dalaison M., E. Saria, E. Calais, C. Doubre, F. Masson, Present-day Opening of the Natron Rift : Tectonic and Magmatic Processes at Work, AGU Meeting, Nouvelle OrlÃ©ans, 2017.

Walpersdorf A, Pinget L, Vernant P, Sue C and DÃ©prez A, Deformation pattern of the Western Alps from two decades of campaign and permanent GNSS measurements, In EGU General Assembly Conference Abstracts. Vol. 19(1), pp. 3046, 2017.

2016

Articles

Alvarado, A., Audin, L., Nocquet, J. M., Jaillard, E., Mothes, P., JarrÃn, P., Segovia, M., Rolandone, F. & Cisneros, D., 2016. Partitioning of oblique convergence in the Northern Andes subduction zone : Migration history and the presentâ€ day boundary of the North Andean Sliver in Ecuador. Tectonics, 35(5), 1048-1065.

Baratin, L.M., S. Mazzotti, J. ChÃ©ry, P. Vernant, A. Tahayt, T. Mourabit, 2016. Incipient mantle delamination, active tectonics and crustal thickening in Northern Morocco : Insights from gravity data and numerical modeling, Earth Planet. Sci. Lett., 454, 113-120, doi : 10.1016/j.epsl.2016.08.041.

Klein, E., Fleitout, L., Vigny, C., & Garaud, J. D., 2016. Afterslip and viscoelastic relaxation model inferred from the large-scale post-seismic deformation following the 2010 Mw 8.8 Maule earthquake (Chile). Geophysical Journal International, 205(3), 1455-1472.

MarÃ©chal, A., S. Mazzotti, R. Cattin, et al., 2016. Evidence of interseismic coupling variations along the Bhutan Himalayan arc from new GPS data, Geophys. Res. Lett., 43, doi:10.1002/2016GL071163.

Pousse-Beltran L., Pathier E., Jouanne F., Vassallo R., Reinoza C., Audemard F.,â€¨Doin M-P., Volat M., 2016. Spatial and temporal variations in creep rate along the El Pilarâ€¨fault at the Caribbean-South American plate boundary (Venezuela), from InSAR,â€¨Journal of Geophysical Research - Solid Earth, 121, 11, 8276-8296.

Smittarello, D., Grandin, R., De Chabalier, J. B., Doubre, C., Masson, F., Deprez, A., Saad, I. A., 2016. Transient deformation in the Asalâ€ Ghoubbet Rift (Djibouti) since the 1978 diking event : Is deformation controlled by magma supply rates ?. Journal of Geophysical Research : Solid Earth, 121(8), 6030-6052.

Villegasâ€ Lanza, J. C., Chlieh, M., CavaliÃ©, O., Tavera, H., Baby, P., Chireâ€ Chira, J., & Nocquet, J. M., 2016. Active tectonics of Peru : Heterogeneous interseismic coupling along the Nazca megathrust, rigid motion of the Peruvian Sliver, and Subandean shortening accommodation. Journal of Geophysical Research : Solid Earth, 121(10), 7371-7394.

Villegas-Lanza, J. C., Nocquet, J. M., Rolandone, F., VallÃ©e, M., Tavera, H., Bondoux, F., Tran, T., Martin, X. & Chlieh, M., 2016. A mixed seismic-aseismic stress release episode in the Andean subduction zone. Nature Geoscience, 9, 150-154, doi:10.1038/ngeo2620.

Communications

Riccardi, U., Tammaro, U., Boy, J.P., Masson, F., Capuano, P., Precipitable water vapour contents at â€œlocalâ€ scale : a comparative study on GNSS-derived data versus modelled ones from ECMWF operational models, EGU Meeting, Vienna, 2016

Smittarello, D., Grandin, R., de Chabalier, J.B., Doubre, C., Deprez, A., Masson, F., Socquet, A., Transient deformation in the Asal-Ghoubbet Rift (Djibouti) since the 1978 diking event : Is deformation controlled by magma supply rates ? AGU Meeting, San Francisco, 2016.

2015

Articles

Bendick R. Â· S. F. Khan Â· R. BÃ¼rgmann Â· F. Jouanne Â· P. BanerjeeÂ· M. A. Khan Â· R. Bilham, 2015. Postseismic relaxation in Kashmir shows lateral variations in crustal architecture and materials, Geophysical Research Letters, 42(11). DOI:10.1002/2015GL064670.

Ellis A., C. DeMets, P. Briole, E. Molina, O. Flores, J. Rivera, C. Lasserre, H. Lyon-Caen, N. Lord, 2015. Geodetic slip solution for the Mw = 7.4 Champerico (Guatemala) earthquake of 07 November 2012, Geophysical Journal International, 201 (2) : 856-868, doi : 10.1093/gji/ggu48.

MarÃ©chal, A., S. Mazzotti, J. L. Elliot, J. T. Freymueller, and M. Schmidt, 2015. Indentor-corner tectonics in the Yakutat - St. Elias collision constrained by GPS, J. Geophys. Res., 120, doi:10.1002/2014JB011842.

Masson, F., Hamiel, Y., Amotz, A., Klinger, Y., Deprez, A., 2015. Variable behavior of the Dead Sea Fault along the southern Arava segment from GPS measurements, CR GÃ©osciences, 347, 161-169.

Reinoza C, Jouanne F., Audemard F., Schmitz M.,Â· Beck Â·C., 2015. Geodetic exploration of strain along the El Pilar Fault in northeastern Venezuela, Journal of Geophysical Research : Solid Earth ; 120(3):1993-2013. DOI:10.1002/2014JB011483.

Rigo A., Vernant P., Feigl K.L., Goula X., Khazaradze G., Talaya J., Morel L., Nicolas J., Baize S., ChÃ©ry J. & Sylvander M., 2015. Present-day deformation of the Pyrenees revealed by GPS surveying and earthquake focal mechanisms until 2011, Geophys. J. Int., 201, 947-964.

Walpersdorf, A., C. Sue, S. Baize, et al., 2015. Coherence between geodetic and seismic deformation in a context of slow tectonic activity (SW Alps, France), J. Geodyn., Vol. 85, pp 58-65, 10.1016/j.jog.2015.02.001.

2014

Articles

Alvarado, A., Audin, L., Nocquet, J. M., Lagreulet, S., Segovia, M., Font, Y., & Quidelleur, X., 2014. Active tectonics in Quito, Ecuador, assessed by geomorphological studies, GPS data, and crustal seismicity. Tectonics, 33(2), 67-83.

Beauval, C., H. Yepes, A. Alvarado, L. Audin, J.-M. Nocquet, D. Monelli & L. Danciu, 2014. Probabilistic seismic hazard assessment in Quito, estimates and uncertainties, Seismological Research Letters, 85(6), 1316-1327.

Brenot, H., Walpersdorf, A., Reverdy, M., van Baelen, J., Ducrocq, V., Champollion, C., Masson, F., Doerflinger, E., Collard, P., Giroux, P., 2014. A GPS network for tropospheric tomography in the framework of the Mediterranean hydrometeorological observatory CÃ©vennes-Vivarais (south-eastern France), AMT, 11/2013 6(6) :9515-9578.

Chlieh, M., Mothes, P. A., Nocquet, J. M., Jarrin, P., Charvis, P., Cisneros, D., & Yepes, H., 2014. Distribution of discrete seismic asperities and aseismic slip along the Ecuadorian megathrust. Earth and Planetary Science Letters, 400, 292-301.

Ferenc, M. Nicolas, J., van Dam, T., Polidori, L., Rigo, A. & Vernant, P., 2014. An estimate of the influence of loading effects on tectonic velocities in the Pyrenees, Studia Geophysica and Geodaeticae, 58(1), 56-75.

Jouanne F., Awan A., PÃªcher A., Kausar A. , Mugnier J. L. , Khan I., Khan N. A. and Van Melle J., 2014. Present-day deformation of northern Pakistan from Salt Ranges to Karakorum Ranges, Journal of Geophysical Research Solid Earth, DOI : 10.1002/2013JB010776.

Masson, F., Lehujeur, M., Ziegler, Y., Doubre, C., 2014. Strain rate tensor in Iran from a new GPS velocity field, Geophys. J. Int., 197, 10â€“21.

MÃ©tois, M., Vigny, C., Socquet, A., Delorme, A., Morvan, S., Ortega, I., & Valderas-Bermejo, C. M., 2014. GPS-derived interseismic coupling on the subduction and seismic hazards in the Atacama region, Chile. Geophysical Journal International, 196(2), 644-655.

Nocquet, J. M., Villegas-Lanza, J. C., Chlieh, M., Mothes, P. A., Rolandone, F., Jarrin, P., & Yepes, H., 2014. Motion of continental slivers and creeping subduction in the northern Andes. Nature Geoscience, 7(4), 287-291.

Remy, D., J.L Froger, H Perfettini, S. Bonvalot, G. Gabalda, V. Cayol, D. Legrand, F. Albino, 2014. Persistent uplift of the Lazufre volcanic complex (Central Andes) : new insights from PCAIM inversion of InSAR and GPS data. G3 Geochemistry, Geophysics, Geosystems. http://onlinelibrary.wiley.com/doi/10.1002/2014GC005370/abstract

Ruiz, S., M. Metois, A. Fuenzalida, J. Ruiz, F. Leyton, R. Grandin, C. Vigny, R. Madariaga and J. Campos, 2014. Intense foreshocks and a slow slip event preceded the 2014 Iquique Mw 8.1 earthquake. Science, doi:10.1126/science.1256074.

Serpetsidaki A., P. Elias, M. Ilieva, P. Bernard, P. Briole, A. Deschamps, S. Lambotte, H. Lyon-Caen, A. Tselentis, E. Sokos, 2014. New constraints from seismology and geodesy on the Mw=6.4 2008 Movri (Greece) earthquake. Evidence for a growing strike slip fault system, Geophysical Journal International,198,1373-1386, DOI : 10.1093/gji/ggu212.

Yue H., T. Lay, L. Rivera, C. An, C. Vigny, X. Tong and J.-C. Baez Soto, 2014. Localized fault slip to the trench in the 2010 Maule, Chile Mw = 8.8 earthquake from joint inversion of high-rate GPS, teleseismic body waves, InSAR, campaign GPS, and tsunami observations. JGR, doi : 10.1002/2014JB011340.

2013

Articles

Berthet T., GyÃ¶rgy HetÃ©nyi, Rodolphe Cattin, et al., 2013. Lateral uniformity of India Plate strength over central and eastern Nepal Geophys. J. Int., 195 (3) : 1481-1493, doi:10.1093/gji/ggt357

Deprez, A., Doubre, C., Masson, F., Ulrich, P., 2013. Seismic and aseismic deformation along the East African Rift System from a reanalysis of the GPS velocity field of Africa, Geophys. J. Int., 193, 1353-1369.

Hammer, P., T. Berthet, G. HetÃ©nyi, R. Cattin, D. Drukpa, J. Chophel, S. Lechmann, N. Le Moigne, C. Champollion, and E. Doerflinger, 2013. Flexure of the India plate underneath the Bhutan Himalaya, Geophys. Res. Lett., 40, 4225-4230doi:10.1002/grl.50793.

Karakhanian, A., P. Vernant, E. Doerflinger, A. Avagyan ; H. Philip ; I. R. Aslanyan ; C. Champollion ; P. Collard ; M. Peyret ; V. Davtyan ; E. Calais ; F. Masson, 2013. GPS constraints on continental deformation in the Armenian region and Lesser Caucasus, Tectonophysics, 592, 39-45

Lin, Y. N. N., Sladen, A., Ortegaâ€ Culaciati, F., Simons, M., Avouac, J. P., Fielding, E. J., ... & Vigny, C., 2013. Coseismic and postseismic slip associated with the 2010 Maule Earthquake, Chile : Characterizing the Arauco Peninsula barrier effect. Journal of Geophysical Research : Solid Earth, 118(6), 3142-3159.

Mahmoud, Y., Masson, F., Meghraoui, M., Cakir, Z.. Alchalbi, A., Yavasoglu, H., YÃ¶nlÃ¼, O., Daoud, M., Ergintav, S., Inan, S, 2013. Kinematic study at the junction of the East Anatolian fault and the Dead Sea fault from GPS measurements, J. of Geod., 67, 30-39.

Masiello, Guido ; Serio, Carmine ; Deleporte, Thomas ; et al., 2013. Comparison of IASI water vapour products over complex terrain with COPS campaign data ; METEOROLOGISCHE ZEITSCHRIFT ; Volume : 22 ; Issue : 4 ; Pages : 471-487

MÃ©tois, M., Socquet, A., Vigny, C., Carrizo, D., Peyrat, S., Delorme, A., ... & Ortega, I., 2013. Revisiting the North Chile seismic gap segmentation using GPS-derived interseismic coupling. Geophysical Journal International, 194(3), 1283-1294.

Pfeffer, J., et al., 2013. Evaluating surface and subsurface water storage variations at small time and space scales from relative gravity measurements in semiarid Niger, Water Resour. Res., 49, 3276â€“3291, doi:10.1002/wrcr.20235.

Rangin, C., Maurin, T., & Masson, F., 2013. Combined effects of Eurasia/Sunda oblique convergence and East-Tibetan crustal flow on the active tectonics of Burma. Journal of Asian Earth Sciences, 76, 185-194.

Rizza, M., Vernant, P., Ritz, J. F., Peyret, M., Nankali, H., Nazari, H., Djamour, Y., Salamati, R., Tavakoli, F., ChÃ©ry, J., Mahan, S.N., Masson, F., 2013. Morphotectonic and geodetic evidence for a constant slip-rate over the last 1 45 kyr along the Tabriz Fault (Iran), Geophys. J. Int., 193, 1083-1094.

Sapin, F., Hermawan, I., Pubellier, M., Vigny, C., & Ringenbach, J. C., 2013. The recent convergence on the NW Borneo Wedgeâ€”a crustal-scale gravity gliding evidenced from GPS. Geophysical Journal International, 193(2), 549-556.

VallÃ©e, M., Nocquet, J. M., Battaglia, J., Font, Y., Segovia, M., RÃ©gnier, M., & Chlieh, M., 2013. Intense interface seismicity triggered by a shallow slow slip event in the Central Ecuador subduction zone. Journal of Geophysical Research : Solid Earth, 118(6), 2965-2981

2012

Articles

Franco, A., C. Lasserre, H. Lyon-Caen, et al., 2012, Fault kinematics in northern Central America and coupling along the subduction interface of the Cocos Plate, from GPS data in Chiapas (Mexico), Guatemala and El Salvador, Geophys. J. Int., v. 189(3), pp. 1223-1236, doi :10.1111/j.1365-246X.2012.05390.x.

Jouanne, F., J.L. Mugnier, R. Koci, S. Bushati, K. Matev, N. Kuka, I. Shinko, S. Kociu, L. Duni, 2012. GPS constraints on current tectonics of Albania ,Tectonophysics 554â€“557 (2012) 50â€“62.

MÃ©tois, M., A. Socquet and C. Vigny, 2012. Interseismic coupling, segmentation and mechanical behavior of the central Chile subduction zone, Journal of Geophysical Research, VOL. 117, B03406, [doi:10.1029/2011JB008736].

Metzger, S. SigurjÃ³n JÃ³nsson, Gillis Danielsen, SigrÃºn HreinsdÃ³ttir, FranÃ§ois Jouanne, Domenico Giardini and Thierry Villemin, 2012. Present kinematics of the TjÃ¶rnes Fracture Zone, North Iceland, from campaign and continuous GPS measurements Geophys. J. Int. first published online November 19, 2012 doi:10.1093/gji/ggs032.

Moreno, M., D. Melnick, M. Rosenau, et al., 2012. Toward understanding tectonic control on the Mw 8.8 2010 Maule Chile earthquake, Earth and Planetary Science Letters, 321-322, pp 152-165 [DOI:10.1016/j.epsl.201201.006].

PÃ©rouse, E., N. Chamot-Rooke, A. Rabaute , P. Briole , F. Jouanne , I. Georgiev and D. Dimitrov, 2012. Bridging onshore and offshore present-day kinematics of central and eastern Mediterranean : Implications for crustal dynamics and mantle flow, Geochemistry, Geophysics, Geosystems , Vol. 13, Q09013, 25 PP., doi:10.1029/2012GC004289.

2011

Articles

Ballu, V., M.N. Bouin, P. SimÃ©oni, W. C. Crawford, S. Calmant, J.M. BorÃ©, T. Kanas , B. Pelletier, 2011. Comparing the role of absolute sea level rise and vertical tectonic motions in coastal flooding, Torres islands (Vanuatu), PNAS, 108 (32) 13019-13022, doi:10.1073/pnas.1102842108.

Chlieh, M., H. Perfettini, H. Tavera, J.-P. Avouac, D. Remy, J. M. Nocquet, F. Rolandone, F. Bondoux, G. Gabalda, and S. Bonvalot, 2011. Interseismic Coupling and Seismic Potential along the Central Andes Subduction Zone, J. Geophys. Res., Vol. 116, B12405, doi:10.1029/2010JB008166.

Fallourd, R. O. Harant, E. TrouvÃ©, J.-M. Nicolas, M. Gay, A. Walpersdorf, J.-L. Mugnier, J. Serafini, D. Rosu, L. Bombrun, G. Vasile, N. Cotte, F. Vernier, F. Tupin, L. Moreau, and P. Bolon, 2011. Monitoring Temperate Glacier Displacement by Multi- Temporal TerraSAR-X Images and Continuous GPS Measurements, IEEE Journal of Selected Topics in Earth Observations and Remote Sensing, Vol. 4, No. 2, 372-387.

Jouanne, F., Audemard, F. A., Beck, C., Van Welden, A., Ollarves, R., & Reinoza, C., 2011. Present-day deformation along the El Pilar Fault in eastern Venezuela : Evidence of creep along a major transform boundary. Journal of Geodynamics, 51(5), 398-410.

Jouanne, F., A. Awan, A. Madji, A. PÃªcher, M. Latif, A. Kausar, J. L. Mugnier, I. Khan, and N. A. Khan, 2011. Postseismic deformation in Pakistan after the 8 October 2005 earthquake : Evidence of afterslip along a flat north of the Balakot-Bagh thrust, J. Geophys. Res., 116, B07401, doi:10.1029/2010JB007903.

Pollitz, F. F., B. Brooks, X. Tong, et al., 2011. Coseismic slip distribution of the February 27, 2010 Mw 8.8 Maule, Chile earthquake, Geophys. Res. Lett., 38, L09309, doi:10.1029/2011GL047065.

Remy, D. M. Falvey, S. Bonvalot, M. Chlieh, G. Gabalda, J-L. Froger, D. Legrand, 2011. Variability of precipitable water in Northern Chile : impacts on interpretation of InSAR data for Earthquake modeling. Journal of South American Earth Sciences, Vol 31, pp. 214-226 doi:10.1016/j.jsames.2011.01.003.

Richard E. ; Chaboureau J-P ; Flamant C. ; et al., 2011. Forecasting summer convection over the Black Forest : a case study from the Convective and Orographically-induced Precipitation Study (COPS) experiment , QUARTERLY JOURNAL OF THE ROYAL METEOROLOGICAL SOCIETY Volume : 137 Special Issue : SI Supplement : 1 Pages : 101-117 DOI : 10.1002/qj.710

Van Baelen, J., M. Reverdy, F. Tridon, L.Labbouz, G. Dick, M. Bender, and M.Hagen, 2011. On the relationship between water vapour field evolution and precipitation systems lifecycle, Q. J. R. Meteorol. Soc. DOI:10.1002/qj.785.

Vigny C., A. Socquet, S. Peyrat, J.-C. Ruegg, M. MÃ©tois, R. Madariaga, S. Morvan, R. Lacassin, J. Campos, D. Carrizo, M. Bejar-Pizarro, S. Barrientos, R. Armijo et al., 2011. The 2010 Mw 8.8 Maule Megathrust Earthquake of Central Chile, Monitored by GPS, Science, 332, 1417, DOI : 10.1126/science.1204132.

Volker Wulfmeyer, Andreas Behrendt, Christoph Kottmeier, et al., 2011. The Convective and Orographically Induced Precipitation Study (COPS) : The Scientific Strategy, the Field Phase, and First Highlightst, Q. J. R. Meteorol. Soc.

Wulfmeyer et al., 2011. The Convective and Orographically Induced Precipitation Study (COPS) : The Scientific Strategy, the Field Phase, and Research Highlights, Q. J. R. Meteorol. Soc. DOI:10.1002/qj.752.

2010

Articles

Ballu Valerie ; Bouin Marie-Noelle ; Calmant Stephane ; et al., 2010. Absolute seafloor vertical positioning using combined pressure gauge and kinematic GPS data, JOURNAL OF GEODESY Volume : 84 Issue : 1 Pages : 65-77 DOI : 10.1007/s00190-009-0345-y.

Bejar-Pizarro M. ; Carrizo D. ; Socquet A. ; et al., 2010. Asperities and barriers on the seismogenic zone in North Chile : state-of-the-art after the 2007 Mw 7.7 Tocopilla earthquake inferred by GPS and InSAR data, GEOPHYSICAL JOURNAL INTERNATIONAL Volume : 183 Issue : 1 Pages : 390-406 DOI : 10.1111/j.1365-246X.2010.04748.x.

Bosser, P., Bock, O., Thom, C., Pelon, J., & Willis, P., 2010. A case study of using Raman lidar measurements in high-accuracy GPS applications. Journal of Geodesy, 84(4), 251-265.

Djamour Yahya ; Vernant Philippe ; Bayer Roger ; et al., 2010. GPS and gravity constraints on continental deformation in the Alborz mountain range, Iran , 2010. Geophys. J. Int., 183, 3, 1287-1301, DOI : 10.1111/j.1365-246X.2010.04811.x.

Hatzfeld, D., C. Authemayou, P. van der Beek, O. Bellier, J. LavÃ©, B. Oveisi, M. Tatar, F. Tavakoli, A. Walpersdorf and F. Yamini-Fard, 2010. The kinematics of the Zagros Mountains (Iran), in Tectonic and Stratigraphic Evolution of Zagros and Makran during the Mesozoicâ€“Cenozoic. Leturmy, P. & Robin, C. (eds.), Geological Society, London, Special Publications, 330, 19â€“ 42, doi : 10.1144/SP330.3.

Madariaga, R., M. MÃ©tois, C. Vigny and J. Campos, Central Chile finally breaks Science, 2010. 328, 5975, 181 - 182, DOI : 10.1126/science.11891972010.

T. Maurin, F. Masson, C. Rangin, U. Than Min, P. Collard, 2010. First GPS results in northern Myanmar : constant and localised slip along the Sagaing fault, Geology, 38, 591-594.

Communications

Gegout, P., J.-P. Boy, J. Hinderer & G. Ferhat, 2010. Modeling and Observation of Loading Contribution to Time-Variable GPS Sites Positions, in Gravity, Geoid & Earth Observation, IAG Commission 2 : Gravity Field, Chania â€“ Greece, June 2008, ed. S. Mertikas, International Association of Geodesy Symposia, Vol. 135, 651-660.

2009

Articles

Bergeot, N., Bouin, M. N., Diament, M., Pelletier, B., RÃ©gnier, M., Calmant, S., & Ballu, V., 2009. Horizontal and vertical interseismic velocity fields in the Vanuatu subduction zone from GPS measurements : Evidence for a central Vanuatu locked zone. Journal of Geophysical Research : Solid Earth, 114(B6).

Boniface, K, Ducrocq, V, Jaubert, G, Yan, X, Brousseau, P, Masson, F, Champollion, C, ChÃ©ry, J, Doerflinger, E, 2009. Impact of high-resolution data assimilation of GPS zenith delay on Mediterranean heavy rainfall forecasting, Ann. Geophysicae, 27, 2739-2753.

Boudevillain, B., S. Argence, C. Claud, et al., 2009. Projet CYPRIM, partie I : CyclogenÃ¨ses et prÃ©cipitations intenses en rÃ©gion mÃ©diterranÃ©enne : origines et caractÃ©ristiques, La MÃ©tÃ©orologie, 16, 18-28.

Bouin Marie-Noelle ; Ballu Valerie ; Calmant Stephane ; et al., 2009. A kinematic GPS methodology for sea surface mapping, Vanuatu, J. GEODESY, 83, 12, 1203-1217 DOI : 10.1007/s00190-009-0338-x

Bouin Marie-Noelle ; Ballu Valerie ; Calmant Stephane ; et al., 2009. Improving resolution and accuracy of mean sea surface from kinematic GPS, Vanuatu subduction zone, J. GEODESY, 83, 11, 1017-1030 DOI : 10.1007/s00190-009-0320-7.

Cattin, R., N. Chamot-Rooke, M.Pubellier, A. Rabaute, M. Delescluse, C. Vigny, L. Fleitout and P. Dubernet, 2009. Stress change and effective friction coefficient along the Sumatra-Andaman-Sagaing fault system after the 26 december 2004 (Mw=9.2) and the 28 march 2005 (Mw=8.7) earthquakes G-cubed, 10, Q03011, doi:10.1029/2008GC002167.

Champollion C., P. Drobinski, M. Haeffelin, J. Tarniewicz, Bock, O., R. Vautard, M.-N. Bouin, 2009. Water vapour variability induced by urban surface heterogeneities during convective conditions, Q. J. R. Meteorol. Soc., 135, 1266 â€“ 1276, DOI : 10.1002/qj.446.

Champollion C. ; Flamant C. ; Bock O. ; et al., 2009. Mesoscale GPS tomography applied to the 12 June 2002 convective initiation event of IHOP_2002, QUARTERLY JOURNAL OF THE ROYAL METEOROLOGICAL SOCIETY Volume : 135 Issue : 640 Pages : 645-662 DOI : 10.1002/qj.386 .

Peyret, M, Djamour, Y, Hessami, K, et al., 2009. Present-day strain distribution across the Minab-Zendan-Palami fault system from dense GPS transects, Geoph. J. Int., 179, 751-762.

Richard, E., C. Flamant, F. Bouttier, et al., 2009 : La campagne COPS : Initiation et cycle de vie de la convection en rÃ©gion montagneuse, La MÃ©tÃ©orologie, 64, 32-42.

Rosat S., Boy J.-P., Ferhat G., Hinderer J. , Amalvict M., GÃ©gout P. & Luck B., 2009. Analysis of a ten-year (1997-2007) record of time-varying gravity in Strasbourg using absolute and superconducting gravimeters : new results on the calibration and comparison with GPS height changes and hydrology, Journal of Geodynamics, Volume 48, Issues 3-5, Pages 360-365, December 2009.

Ruegg, J.C., A. Rudloff, C. Vigny, R. Madariaga, J.B. DeChabalier, J. Campos, E. Kausel, S. Barrientos, D. Dimitrov, 2009. Interseismic strain accumulation measured by GPS in the seismic gap, between Constitucion and Concepcion in Chile, PEPI, Vol 175, issue 1-2, June, 10.1016/j.pepi.2008.02.015.

Van Baelen, J., and G. Penide, 2009. Study of water vapor vertical variability and possible cloud formation with a small network of GPS stations, Geophys. Res. Lett., 36, L02804, doi:10.1029/2008GL036148.

Vigny, C., A. Rudloff, J.C. Ruegg, R. Madariaga, J. Campos, M. Alvarez, 2009. Upper plate deformation measured by GPS in the Coquimbo gap, Chile, PEPI, Vol 175, issue 1-2, June, 10.1016/j.pepi.2008.02.013.

Yan, X., V. Ducrocq, P. Poli, M. Hakam, G. Jaubert, A. Walpersdorf, 2009. Impact of GPS zenith delay assimilation on convective scale prediction of Mediterranean heavy rainfall, J. Geophys. Res., Atmospheres, 114, D03104, doi:10.1029/2008JD011036.

Yan X. ; Ducrocq V. ; Jaubert G. ; et al., 2009. The benefit of GPS zenith delay assimilation to high-resolution quantitative precipitation forecasts : A case-study from COPS IOP 9 , QUARTERLY JOURNAL OF THE ROYAL METEOROLOGICAL SOCIETY, 135, 644, 1788-1800 DOI : 10.1002/qj.508.

Communications

Fallourd R., Harant O., TrouvÃ© E., Nicolas J.M., Tupin F., Gay M., Vasile G., Bombrun L., Walpersdorf A., Serafini J., Cotte N., Moreau L. and Bolon P., 2009. Monitoring Temperate Glacier : Combined Use of Multi-date TerraSAR-X Images and Continuous GPS Measurements, 4 pages, MULTITEMP 2009, Groton, Connecticut, USA.

Mayer, M. A. KnÃ¶pfler, B. Heck, F. Masson, P. Ulrich & G. Ferhat, 2009 - GURN (GNSS Upper Rhine Graben Network) â€“ Research Goals and First Results of a Transnational Geo-Scientific Network, Proceedings of the International Association of Geodesy, Buenos Aires, Argentina, August to September 4.

2008 and before

Articles

Tavakoli, F., Walpersdorf, A., Authemayou, C., Nankali, H. R., Hatzfeld, D., Tatar, M., ... & Cotte, N., 2008. Distribution of the right-lateral strikeâ€“slip motion from the Main Recent Fault to the Kazerun Fault System (Zagros, Iran) : Evidence from present-day GPS velocities. Earth and Planetary Science Letters, 275(3), 342-347.

Bettinelli, P., Avouac, J. P., Flouzat, M., Willis, P., Jouanne, F., Bollinger, L., & Chitrakar, G. R., 2006. Interseismic deformation in the Himalaya of Central Nepal from combined GPS measurements and DORIS data. J. Geod, 80, 567-589.

Jouanne F., Villemin T., Berger A. and Henriot O., Rift-transform Junction in North-Iceland : rigid blocks and narrow accommodation zones revealed by GPS 1997-1999-2002., 2006. Geophys. J. Int. 167, 1439â€“1446 doi : 10.1111/j.1365-246X.2006.03107.

Talaya, J., Feigl, K., TÃ©rmens, A., Colomina, I., 1999. Practical lessons from analysis of a GPS network designed to detect movements of = 1 mm/year in the eastern Pyrenees. Phys. Chem. Earth 24, 355â€“359.

ProcÃ©dure de configuration avec adresse IP DYNDNS

Pascale Bascou — 2016-02-29T14:37:04Z

Voici une procÃ©dure et la configuration type d'un modem routeur 3G NB1600, pour une utilisation quasi "plug and play". Les abonnements 3G sont pris chez Orange (forfait Business Everywhere (3 Go)).
les critÃ¨res de nom de domaine et les adresses ip locales sont calquÃ©es sur ce qui se fait Ã ISTERRE. Vous pouvez bien sÃ »r les adapter Ã votre rÃ©seau.
Vous trouverez 2 fichiers en attachÃ© :

– config-type_nb1600_dyndns.zip :
Sur un modem en configuration usine, charger le .zip, en ayant crÃ©Ã© au prÃ©alable le nom du domaine sur le site dyndns.org. la configuration du routage est la suivante :
modem : 192.168.1.1
GNSS : 192.168.1.3
Il vous restera Ã modifier les login/pwd du modem, et le nom du domaine dyndns.

– modem_config_settings_france.pdf :
le pdf est un condensÃ© des modifications Ã apporter Ã la configuration usine, si la configuration du modem est faite manuellement.

fichier Ã charger dans le modem

modifications Ã apporter Ã la configuration d'usine

GR25

Olivier Charade — 2016-02-26T11:33:56Z

Station permanente adaptÃ©e Ã une utilisation dans un parc mobile, le GR25 dispose d'une interface homme/machine dont la pleine comprÃ©hension nÃ©cessite une explication

Pascale Bascou a extrait de la documentation du rÃ©cepteur les pages utiles sur le terrain. La prÃ©paration du rÃ©cepteur doit avoir Ã©tÃ© faite au prÃ©alable Ã l'aide de son interface Web.

utilisation du GR25 sur le terrain

station permanente GB1000 pour les nuls

Olivier Charade — 2015-10-19T16:23:36Z

Les rÃ©cepteurs GB1000 du parc mobile sont aujourd'hui remplacÃ©s par des appareils plus rÃ©cents et ils commencent Ã alimenter des Â« dÃ©butsÂ » de rÃ©seaux permanents. Je crois donc utile de dÃ©crire une configuration de base qui peut rÃ©pondre Ã la plupart des besoins sans nÃ©cessiter d'apprendre Ã parler GRIL.

Il faut commencer par se connecter au rÃ©cepteur soit par un port sÃ©rie (avec un hyperterminal), soit par le port Ethernet (TELNET sur le port 8002, login a, b, c ,d ou e, et mot de passe dans les configurations accessibles depuis l'Ã©cran du rÃ©cepteur _ souvent son numÃ©ro de sÃ©rie).

A partir de lÃ , il faut parler GRIL. Attention, il n'y a aucun espace dans une commande GRIL !

init,/par/
init,/dev/nvm/a
init,/dev/blk/a
set,/par/cmd/create/prefix,SITE
set,/par/log/rot/sc/period,86400
set,/par/log/rot/sc/phase,0
set,/par/log/rot/sc/count,0
set,/par/log/sc/period,30
set,/par/button/auto,always
set,/par/opts/cind,on
set,/par/log/rot/mode,on

Quelques explications :

init

devrait Ãªtre utile (remise en configuration Â« sortie d'usineÂ »), mais les deux autres ne devraient pas faire de mal (effacement des Ã©phÃ©mÃ©rides, almanach, etc. ; effacement des donnÃ©es enregistrÃ©es).

On rentre ensuite le nom de la station (remplacer SITE par son code Ã 4 caractÃ¨res). C'est le prÃ©fixe des noms de fichiers qui seront crÃ©Ã©s dans la mÃ©moire interne (la CF externe n'existe pas pour la station permanente, voir Acquisitions simultanÃ©es)

Ensuite on lui indique de crÃ©er des fichiers journaliers (de 86400 secondes, qui commencent Ã minuit et en nombre illimitÃ©).

Juste pour le fun, on active le mode Cendrillon qui transforme notre citrouille en carrosse un mardi sur deux (toutes les options sont dÃ©verrouillÃ©es pendant 24 heures,mais c'est normalement dÃ©jÃ le cas pour les rÃ©cepteurs achetÃ©s Ã travers l'UNAVCO).

Enfin, on active le mode d'enregistrement Â« rotatifÂ », c'est Ã dire que lorsque la mÃ©moire est pleine, le fichier le plus ancien est effacÃ© pour cÃ©der la place au nouveau fichier. C'est aussi cette commande qui va activer l'enregistrement.

Toute cette configuration est faisable en mode interactif avec PCCDU (sous MinTerm), mais PCCDU ne fonctionne que sous Windows.

Pour ceux que Ã§a aiderait, je joins le programme perl que j'utilise sur la station EUREF de Patras pour en rÃ©cupÃ©rer les donnÃ©es. L'intÃ©rÃªt de perl est de pouvoir ouvrir simultanÃ©ment un objet Telnet et un objet ftp, ce qui me permet d'une part de supprimer du rÃ©cepteur le fichier que je viens de tÃ©lÃ©charger, d'autre part de reconfigurer le rÃ©cepteur s'il ne contient pas de donnÃ©es. Je joins Ã©galement le fichier de configuration de la station (attention, il gÃ©nÃ¨re des fichiers horaires Ã 1 seconde). Pour ceux qui ne veulent pas se risquer sur la procÃ©dure ci-dessus en direct, ils peuvent rentrer les paramÃ¨tres dans le fichier de configuration, rÃ©initialiser le rÃ©cepteur (faisable par la face avant du rÃ©cepteur) et lancer mon programme qui se chargera de configurer le rÃ©cepteur. Attention, j'utilise des modules perl qui ne sont pas forcÃ©ment installÃ©s de base avec perl. Faites vous aider pour les rÃ©cupÃ©rer si vous n'Ãªtes pas un membre de la confrÃ©rie des moines Perl.

Olivier Charade — 2015-10-09T11:06:40Z

La station PAT0 est un rÃ©cepteur NETGA3 mis sur le rÃ©seau IP de l'UniversitÃ© de Patras. Un pc sous Linux (Suse) communique avec le rÃ©cepteur par IP.

Le rÃ©cepteur crÃ©e dÃ©jÃ des fichiers bruts d'une heure Ã une seconde qui sont rÃ©cupÃ©rÃ©s par le pc, qui les traduit en rinex et les transmet Ã EUREF.

print,/par/ntrip:on RE02A/par/ntrip={mode=off,state=off,timeout=30, RE047 caster={addr=0.0.0.0,port=0,mountpt="",user="",nmea=0,protocol=ntrip1, RE013 mask="",init=all, RE01F proxy={addr=0.0.0.0,port=0}}, RE01D server={addr=0.0.0.0,port=0, RE00B mountpt={ RE015 name="",descr=""}, RE024 user="",passwd="",protocol=ntrip1, RE01F proxy={addr=0.0.0.0,port=0}}, RE02C data={port=/dev/ser/b,imode=cmd,omode=std}, RE00E error="none"}

Comme le support Topcon a mis un peu de temps Ã me rÃ©pondre, je suis parti sur une solution oÃ¹ le flux de donnÃ©es passe par le pc qui gÃ¨re dÃ©jÃ les donnÃ©es en temps diffÃ©rÃ©.
J'ai donc procÃ©dÃ© de faÃ§on similaire Ã ce que je dÃ©cris dans temps reel sur IP

print,/msg/rtcm3:on RE023/msg/rtcm3={1003={1.00,0.00,0,0x0}, RE018 1004={1.00,0.00,0,0x0}, RE018 1011={1.00,0.00,0,0x0}, RE018 1012={1.00,0.00,0,0x0}, RE019 1005={10.00,0.00,0,0x0}, RE019 1006={10.00,0.00,0,0x0}, RE019 1007={10.00,0.00,0,0x0}, RE019 1008={10.00,0.00,0,0x0}, RE018 1019={0.00,0.00,0,0x2}, RE018 1020={0.00,0.00,0,0x2}, RE019 4087G={0.00,0.00,0,0x2}, RE019 4087N={0.00,0.00,0,0x2}, RE019 1033={10.00,0.00,0,0x0}, RE019 4091i={1.00,0.00,0,0x0}, RE01A 4091t={10.00,0.00,0,0x0}}

Un document ntrip indique que les messages nÃ©cessaires pour du RTCM3 sont les 1004, 1007, 1008 et 1009. Nous n'avons que les trois premiers.
J'active donc l'Ã©mission Ã 1 seconde de ces trois messages sur le port e
em,/dev/tcp/e,/msg/rtcm3{/1004,/1007,/1008}:1.0

Je sais que pour les paramÃ¨tres d'entrÃ©e, il faut que j'indique Ã la commande ntripserver
-M 2 -H 150.140.182.13 -P 8002 -x e -y T225122
traduire : connexion par IP sur l'adresse du rÃ©cepteur, port 8002 comme d'habitude chez Topcon, avec la session e et son mot de passe.

Pour la sortie j'ai demandÃ© au BKG comment on testait son serveur. Ils ont un caster de test sur lequel ils m'ont crÃ©Ã© un point de montage et j'ai ainsi eu tous les paramÃ¨tres de sortie pour la commande ntrip :
-O 1 -a www.euref-ip.net -p 80 -m OLIVER -n DUMMY -c nsp-euref

Pour avoir des statistiques en lecture, j'ai tÃ©lÃ©chargÃ© le client ntrip le plus simple sur mon pc windows Ã Meudon, j'ai ouvert une fenÃªtre DOS et j'ai lancÃ© la commande
C:\Users\charade\Downloads>ntripclient.exe -M 1 -s www.euref-ip.net -r 80 -m OLIVER -u DUMMY -p nsp-euref
Et j'ai vu arriver chaque seconde ce que je suppose Ãªtre des messages RTCM3

Voici les commandes que m'a communiquÃ©es le support Topcon pour faire du rÃ©cepteur un serveur ntrip. La commandeÂ« disable messageÂ » permet de repartir Ã zÃ©ro si on avait dÃ©jÃ fait des essais avant. On notera que les diffÃ©rents messages rtcm3 sont activÃ©s individuellement et pourraient avoir des pÃ©riodes d'Ã©mission diffÃ©rentes :

set,dev/ntrip/a/imode,cmd dm,/dev/ntrip/a em,/dev/ntrip/a,rtcm3/1004:{1.000000,0.000000,0,0x0} em,/dev/ntrip/a,rtcm3/1012:{1.000000,0.000000,0,0x0} em,/dev/ntrip/a,rtcm3/1006:{1.000000,0.000000,0,0x0} em,/dev/ntrip/a,rtcm3/1008:{1.000000,0.000000,0,0x0} em,/dev/ntrip/a,rtcm3/4091t:{1.000000,0.000000,0,0x0} em,/dev/ntrip/a,rtcm3/1033:{1.000000,0.000000,0,0x0}

set,/par/ntrip/data/port,/dev/ntrip/a set,/par/ntrip/caster/addr,"www.euref-ip.net" set,/par/ntrip/caster/port,80 set,/par/ntrip/caster/mountpt,OLIVER set,/par/ntrip/caster/user,DUMMY set,/par/ntrip/caster/passwd,nsp-euref set,/par/ntrip/mode,server

Malheureusement l'affichage des paramÃ¨tres, qui se termine par un Ã©ventuel message d'erreur montre que Ã§a ne fonctionne pas. Si quelqu'un trouve mon erreur, je corrigerai cet article.

RE02E/par/ntrip={mode=server,state=wait,timeout=30, RE045 caster={addr=www.euref-ip.net,port=80,mountpt="OLIVER",user="DUMMY", RE02A nmea=0,protocol=ntrip1,mask="",init=all, RE01F proxy={addr=0.0.0.0,port=0}}, RE01D server={addr=0.0.0.0,port=0, RE00B mountpt={ RE015 name="",descr=""}, RE024 user="",passwd="",protocol=ntrip1, RE01F proxy={addr=0.0.0.0,port=0}}, RE02E data={port=/dev/ntrip/a,imode=cmd,omode=std}, RE024 error="Socket connect failed 125 "}

Mini-guide de prise en main rapide de GAMIT/GLOBK

Pierre Sakic — 2015-03-23T10:08:15Z

Leica AS10

Olivier Charade — 2014-05-14T14:07:05Z

Les antennes de ce type connues du parc sont :

01018431 13291002	01018431 13291007	01018431 13291014
01018431 13291023	01018431 13291024	01018431 13291030
01018431 13291034	01018431 13291035	01018431 13291068
01018431 13291069	01018431 13291075	01018431 13291079
01018431 13291085	01018431 13291087	01018431 13291088
01018431 13291090	01018431 13291091	01018431 13291092
01018431 13291093	01018431 13291095	01018431 14131004
01018431 14131005	01018431 14131012	01018431 14131014
01018431 14131015	01018431 14131020	01018431 14131027
01018431 14131036	01018431 14131042	01018431 14131071

plus disponible

Trimble Zephyr 2

Olivier Charade — 2014-05-14T09:56:15Z

Zephyr 2

banc de test Meudon

Les antennes de ce type connues du parc sont :

57971-00 DC 5043 1441038355	57971-00 DC 5047 1441038673	57971-00 DC 5047 1441040320
57971-00 DC 5048 1441038628	57971-00 DC 5050 1441038433	57971-00 DC 5050 1441038475
57971-00 DC 5050 1441038675	57971-00 DC 5050 1441040059	57971-00 DC 5050 1441040258
57971-00 DC 5050 1441040263	57971-00 DC 5115 1441112267

57971-00 DC 5115 1441112494 |
| 57971-00 DC 5139 1441138240 | 57971-00 DC 5139 1441138478 | 57971-00 DC 5140 1441137992 |
| 57971-00 DC 5140 1441138333 | 57971-00 DC 5140 1441138410 | 57971-00 DC 5145 1441142419 |
| 57971-00 DC 5218 1312118784 | 57971-00 DC 5224 1812118631 | 57971-00 DC 5226 3121170812 |
| 57971-00 DC 5226 3121172105 | 57971-00 DC 5228 3121170884 | 57971-00 DC 5229 3121170100 |
| 57971-00 DC 5229 3121170414 | 57971-00 DC 5229 3121171139 |
| 57971-00 DC 5229 3121171212 |

plus disponible

Zephyr 2 NOAA

Les quatre chiffres qui terminent le numÃ©ro de modÃ¨le de l'antenne (aprÃ¨s le DC) identifient une sÃ©rie d'antennes fabriquÃ©es ensemble. Il est donc normal de constater des changements dans cette partie du numÃ©ro de modÃ¨le. Aucune modification des caractÃ©ristiques intrinsÃ¨ques de l'antenne n'en dÃ©coule.

contrÃ´les 2014

Olivier Charade — 2014-02-26T14:32:19Z

L'annÃ©e s'est ouverte par une sÃ©rie de tests comparatifs auxquels toute la communautÃ© a Ã©tÃ© invitÃ©e Ã participer. Les donnÃ©es sont mises en ligne pour permettre Ã chacun de les exploiter selon ses centres d'intÃ©rÃªts. Elles sont Ã©galement disponibles sous forme de deux archives, une pour les donnÃ©es brutes et une pour les fichiers rinex.
3 antennes AR20 ont Ã©tÃ© prÃªtÃ©es pour ces tests par la sociÃ©tÃ© Leica. L'IGN nous a Ã©galement prÃªtÃ© 3 antennes AR10 pour rendre ces tests plus exhaustifs

Ce document, prÃ©sentÃ© lors des rÃ©unions de la communautÃ© GNSS des 10 et 11 fÃ©vrier 2014 Ã l'observatoire de Paris, rappelle les objectifs des tests comparatifs et donne le sÃ©quencement planifiÃ© de ces tests.

Ce document correspond Ã la rÃ©alitÃ© du dÃ©roulement des tests. Les antennes pressenties pour Ã©quiper les stations permanentes RENAG (Trimble Zephyr II, Leica AR10 et AR20) ont Ã©tÃ© plus longuement testÃ©es, simultanÃ©ment et en permutant leurs emplacements.

station.info

Il semble que les modÃ¨les orientÃ©s Sud, qui ont Ã©tÃ© crÃ©Ã©s pour ce test, prÃ©sentent une instabilitÃ© car, dans la grande majoritÃ© des cas, les sauts aberrants observÃ©s quelques fois sur les sÃ©ries temporelles correspondent Ã des positions Ã 180Â°.

gpscope-DT UPS 855

convertToRinex (Trimble) sous Linux

Publications

ProcÃ©dure de configuration avec adresse IP DYNDNS

GR25

station permanente GB1000 pour les nuls

faire un serveur ntrip avec un rÃ©cepteur Topcon

Mini-guide de prise en main rapide de GAMIT/GLOBK

Leica AS10

Trimble Zephyr 2

contrÃ´les 2014