In: Wagner W., Szdkely, B. (eds.): ISPRS TC VII Symposium - 100 Years ISPRS, Vienna, Austria, July 5-7, 2010, IAPRS, Vol. XXXVIII, Part 7B 
Berardino P., Fomaro G., Lanari R., Sansosti E.,2002.A new 
algorithm for surface deformation monitoring based on small 
baseline differential interferograms,” IEEE Trans. Geosci. 
Remote Sensing, vol. 40, pp. 2375-2383. 
Berardino, P., Casu, F., Lanari, R.,2004. On the exploitation of 
the SBAS algorithm for the analysis of the deformations 
detected from the ERS and ENVISAT D-InSAR data[C]. ERS- 
ENVISAT Symposium. 
BLANCO, P., MALLORQUI, J. J„ DUQUE S., and 
NAVARRETE, D.,2006. Advances on DInSAR with ERS and 
ENVISAT data using the Coherent Pixels Technique (CPT), 
Proc. IGARSS 2006, Denver (USA). 
Blanco-Sanchez P., Deque S., Mallorqui J.J. and Monells 
D.,2007. Analysis of highly non-linear deformation due to 
mininh activity with DInSAR: PSIC Test site. Proc. ‘Envisat 
symposium 2007’, Montreux, Switzerland,23-27 April. 
Blanco-Sanchez P., Mallorqui J.J., Duque S., and Monells 
D.,2008.The Coherent Pixels Technique (CPT): An Advanced 
DInSAR Technique for Nonlinear Deformation Monitoring, 
Pure Appl. Geophys., No. 165, pp. 1167-1194. 
Bock, Y., and S. Williams (1997), Integrated satellite 
interferometry in southern California, Eos Trans. AGU, 78(29), 
293. 
Bock S.Y., Pang P., 1998.Integrated satellite interferometry: 
Tropospheric noise, GPS estimates and implications for 
interferometric synthetic aperture radar products, J. Geophys. 
Res., vol. 103, no. B1 l,pp. 27 051-27067. 
Cao L., Zhang Y.H., He J.G. et al, 2008. Coal mine land 
subsidence monitoring by using Spacebome InSAR data- a case 
study in Fengfeng, Hebei Province, China, Remote Sensing and 
Spatial Information Sciences, Vol.XXXVII,Part B8,Beijing. 
Camec C, Massonnet D., King C., 1996. Two Examples of the 
Use of SAR Interferometry on Displacement Fields of Small 
Spatial Extent [J] . Geophysical Research Letters, 23 (24):3579. 
Camec, C., Fabriol, H. (1999) Monitoring and modeling land 
subsidence at the Cerro-Prieto geothermal field, Baja California, 
Mexico, using interferometry. Geophysical Research Letters, 9, 
1211-1213. 
Camec C., Delacourt C., Three Years of Mining Subsidence 
Monitored by SAR Interferomet ry , Near Gardanne , France [J]. 
J oumal of A p plied Geophysics ,2000 ,43 (1) :43 - 54. 
Costantini M., 1998.A novel phase unwrapping method based 
on network programming, IEEE Trans. Geosci. Remote Sensing, 
vol. 36, pp. 813-821. 
Doin, M-P., Lasserre, C., Peltzer, G., Cavalie, O., Doubre, 
C.,2009. Corrections of stratified tropospheric delays in SAR 
interferometry: Validation with global atmospheric models. 
Journal of Applied Geophysics, v. 69, iss. 1, p. 35-50. 
Duque S., Mallorqui J.J., Blanco-Sanchez P., Monells D., 2007. 
Application of the coherent pixels technique (CPT) to urban 
monitoring, 2007 Urban Remote Sensing Joint Event, vol.2, 
Paris, France. 
Fang Z.L., Wang H.M., Wu J.Z. et al., 2009.Application 
research on monitoring land subsidence research in Shanghai 
using InSAR technology, Shanghai Geology,2(109):22-26 
Ferretti, A., Rocca , F., Prati, C.,1999. Permanent scatterers in 
SAR interferometry[C]. Proc. IGARSS’99 :1528 1529. 
Ferretti, A., Prati, C., Rocca, F.,2000. Nonlinear subsidence rate 
estimation using permeanent scatterers in differential SAR 
interferometry[J] . IEEE Trans. Geosci. Remote Sensing , 38 
(5): 2202 2212. 
Ferretti , A., Prati, C., Rocca, F.,2001. Permanent scatterers in 
SAR interferometry[J], IEEE Trans. Geosci. Remote Sensing,39 
(1):8 20. 
Ferretti A., Perissin D., Prati C., and Rocca F., 2004, “ERS- 
Envisat permanent scatterers,” in Proc. IGARSS, vol. 2, pp. 
985-988. 
Ferretti A., Perissin D., Prati, C. Rocca F., 2005.On the physical 
nature of SAR Permanent Scatterers, Proc. 2005 URSI 
Commission F Symposium on Microwave Remote Sensing of 
the Earth, Oceans, Ice, and Atmosphere, Ispra (Italy), 20-21 
Apri. 
Galloway, D.L. and Hoffrnan, L., 2007. The application of 
satellite differential SAR interferometry-derived ground 
displacements in hydrogeology. Hydrogeology Journal, 15, pp. 
133-154. 
Gatelli, F., Guamieri A. M., Parizzi F., Pasquali P., Prati C., 
and Rocca F., 1994.The Wavenumber Shift in SAR 
Interferometry, IEEE Trans. Geosci. Remote Sensing, Vol. 32, 
855-865. 
Ge, L., Y. Ishikawa, S. Fujiwara, S. Miyazaki, and X. Qiao, 
1997. The Integration of InSAR and CGPS: A Solution to 
Efficient Deformation Monitoring on Current Crustal 
Movement and Hazard Reduction in East Asia and South-east 
Asia, Wuhan, P.R. China, 4-7 November. 
Ge L, Han S, Rizos C., 2000. The Double Interpolation and 
Double Prediction (DIDP) Approach for INSAR and GPS 
Integration, IAPRS, XXXIII. 
Ge, L., Zhang, K., Alex Ng, Dong, Y., Chang, H.-C. and Rizos, 
C., 2008. Preliminary results of satellite radar differential 
interferometry for the co-seismic deformation of the 12 May 
2008 Ms8.0 Wenchuan earthquake. Geographic Information 
Sciences, 14(1), pp. 12-19. 
Ghiglia D. and Pritt M., 1998. Two-Dimensional Phase 
Unwrapping: Theory, Algorithms and Software. New York: 
Wiley. 
Graham L.C., Synthetic interferometer radar for topographic 
mapping, Proc. IEEE 62 (1974) 763-768. 
Gabriel A. K., Goldstein R. M., and Zebker H. A., “Mapping 
small elevation changes over large areas: differential radar 
interferometry,” J.Geophys. Res., vol. 94, no. B7, pp. 9183— 
9191, July 1989. 
Goldstein R., Zebker H., and Werner C., 1988. Satellite radar 
interferometry: Two-dimensional phase unwrapping,” Radio 
Sci., vol. 23, pp. 713-720.