Synthetic aperture radar interferometry and related techniques

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Synthetic aperture radar interferometry and related techniques

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2.11 References

Abdelfattah, R. and J. M. Nicolas (2002). Topographic SAR interferometry formulation for high-precision DEM generation. IEEE Transactions on Geoscience and Remote Sensing, 40(11), 2415–2426.
Google Scholar
Adam, N., M. Eineder, H. Breit, and S. Suchandt (1999). Quality of the D-PAF ERS orbits before and after the inclusion of PRARE data. 2nd International Workshop on ERS SAR Interferometry, “FRINGE99”, Liege, Belgium, November 10–12.
Google Scholar
Ahuja, R. K., T. L. Magnanti, and J. B. Orlin (1993). Network Flows: Theory, Algorithms and Applications. Prentice Hall, Englewood Cliffs, NJ.
Google Scholar
Allen, C. T. (1995). Interferometric Synthetic Aperture Radar. IEEE Geoscience and Remote Sensing Society Newsletter, September 3–13.
Google Scholar
Amiot, T., F. Douchin, E. Thouvenot, J. C. Souyris, and B. Cugny (2002). The interferometric cartwheel: A multi-purpose formation of passive radar microsatellites. Proceedings of International Geoscience and Remote Sensing Symposium IGARSS’ 02, 24–28 June 2002. Institute of Electrical and Electronic Engineers, Piscataway, NJ, Vol. 1, pp. 435–437.
Google Scholar
Baldi, A. (2001). Two-dimensional phase unwrapping by quad-tree decomposition. Applied Optics, 40, 1187–1194.
Google Scholar
Bamber, J. L. and R. A. Bindschadler (1997). An improved elevation dataset for climate and ice-sheet modelling: Validation with satellite imagery. Annals of Glaciology, 25, 438–444.
Google Scholar
Bamber, J. L. and R. Kwok (2004). Remote-sensing techniques. In: J. L. Bamber and A. J. Payne (eds.), Mass Balance of the Cryosphere. Cambridge University Press, Cambridge, UK, pp. 59–113.
Google Scholar
Bamber, J. L., I. Joughin, and R. J. Hardy (1999). A comparison of balance velocities, and InSAR-derived velocities for the Greenland Ice Sheet. Proceedings of ESA Fringe’ 99 Meeting, November 10–12, Liège, Belgium (CD-ROM, ESA SP-478). ESA, Noordwijk, The Netherlands.
Google Scholar
Bamber, J. L., R. J. Hardy, and I. Joughin (2000). An analysis of balance velocities over the Greenland ice sheet and comparison with synthetic aperture radar interferometry. Journal of Glaciology, 46(152), 67–74.
Google Scholar
Bamler, R. (1997). Digital terrain models from radar interferometry. In: D. Fritsch and D. Hobbie (eds.), Photogrammetric Week’ 97. Wichman, Heidelberg, Germany, pp. 93–105. Available online at 〈http://www.ifp.uni-stuttgart.de/publications/phowo97/bamler.pdf〉.
Google Scholar
Bamler, R. and M. Eineder (1996). ScanSAR processing using standard high precision SAR algorithms. IEEE Transactions on Geoscience and Remote Sensing, 34(1), 212–218.
Google Scholar
Bamler, R. and R. Hanssen (1997). Decorrelation induced by interpolation errors in InSAR. Proceedings of International Geoscience and Remote Sensing Symposium IGARSS’ 97, Singapore, 3–8 August 1997. Institute of Electrical and Electronic Engineers, Piscataway, NJ, Vol. 4, pp. 1710–1712.
Google Scholar
Bamler, R. and P. Hartl (1998). Synthetic aperture radar interferometry. Inverse Problems, 14, R1–R54.
Google Scholar
Bamler, R. and J. Holzner (2004). ScanSAR interferometry for Radarsat-2 and Radarsat-3. Canadian Journal of Remote Sensing, 30(3), 437–447.
Google Scholar
Bamler, R. and D. Just (1993). Phase statistics and decorrelation in SAR interferograms. Proceedings of International Geoscience and Remote Sensing Symposium IGARSS’ 93, Tokyo, 18–21 August 1993. Institute of Electrical and Electronic Engineers, Piscataway, NJ, pp. 980–984.
Google Scholar
Bamler, R., D. Geudtner, B. Schättler, U. Steinbrecher, J. Holzner, J. Mittermayer, H. Breit, A. Moreira, P. W. Vachon, K. E. Mattar et al. (1998). Radarsat SAR interferometry using standard, fine, and ScanSAR modes. Proceedings of the Radarsat ADRO Final Symposium, Montreal.
Google Scholar
Bamler, R., D. Geudtner, B. Schättler, P. W. Vachon, U. Steinbrecher, J. Holzner, J. Mittermayer, H. Breit, and A. Moreira (1999). Radarsat ScanSAR interferometry. Proceedings of International Geoscience and Remote Sensing Symposium IGARSS’ 99, 28 June–2 July 1999. Institute of Electrical and Electronic Engineers, Piscataway, NJ, Vol. 3, pp. 1517–1521.
Google Scholar
Bamler, R., M. Eineder, B. Kampes, H. Runge, and N. Adam (2003). SRTM and beyond: Current situation and new developments in spaceborne SAR and InSAR. Proceedings of the ISPRS Workshop on High Resolution Mapping from Space, 6–8 October 2003, Universität Hannover, Germany. International Society for Photogrammetry and Remote Sensing, Istanbul, Turkey.
Google Scholar
Bedrich, S. (1997). PRARE System Performance (Earthnet online, ESA). Available online at 〈http://earthl.esrin.esa.it/florence/papers/program-details/data/bedrich/index.html〉.
Google Scholar
Bindschadler, R. (1998). Monitoring ice sheet behavior from space. Reviews of Geophysics, 36(1), 79–104.
Google Scholar
Bindschadler, R. A., R. B. Alley, J. Anderson, S. Shipp, H. Borns, J. Fastook, S. Jacobs, C. F. Raymond, and C. A. Shuman (1998). What is happening to the West Antarctic Ice Sheet. EOS, Transactions of the American Geophysical Union, 79(22), 257, 264–265.
Google Scholar
Bindschadler, R., M. Fahnestock, and A. Sigmund (1999). Comparison of Greenland Ice Sheet topography measured by TOPSAR and airborne laser altimetry. IEEE Transactions on Geoscience and Remote Sensing, 37(5), 2530–2535.
Google Scholar
Budd, W. F. and R. C. Warner (1996). A computer scheme for rapid calculations of balance-flux distributions. Annals of Glaciology, 23, 21–27.
Google Scholar
Bürgmann, R., P. A. Rosen, and E. J. Fielding (2000). Synthetic aperture radar interferometry to measure Earth’s surface topography and its deformation. Annual Review Earth Planetary Sciences, 28, 169–209.
Google Scholar
Capes, R. and M. Haynes (2004). InSAR Basics: A Brief Guide to SAR Interferometry (InSAR) (electronic media). Available online at 〈http://www.npagroup.co.uk/insar/whatisinsarlinsar_simple.htm〉.
Google Scholar
Carballo, G. F. and P. W. Fieguth (1999). Probabilistic cost functions for network flow phase unwrapping. Proceedings of International Geoscience and Remote Sensing Symposium IGARSS’ 99, Hamburg, Germany, 28 June–2 July 1999.
Google Scholar
Carballo, G. F. and P. W. Fieguth (2000). Probabilistic cost functions for network flow phase unwrapping. IEEE Transactions on Geoscience and Remote Sensing, 38(5), 2192–2201.
Google Scholar
Carballo, G. F. and P. W. Fieguth (2002). Hierarchical network flow phase unwrapping. IEEE Transactions on Geoscience and Remote Sensing, 40(8), 1695–1708.
Google Scholar
Caves, R., A. P. Luscombe, P. K. Lee, and K. James (2002). Topographic performance evaluation of the Radarsat-2/-3 tandem mission. Proceedings of International Geoscience and Remote Sensing Symposium IGARSS’ 02, 24–28 June 2002, Toronto, Canada.
Google Scholar
Chen, C. W. and H. A. Zebker (2000). Network approaches to two-dimensional phase unwrapping: Intractability and two new algorithms. Journal of the Optical Society of America A, 17(3), 401–414.
Google Scholar
Chen, C. W. and H. A. Zebker (2001). Two-dimensional phase unwrapping with use of statistical models for cost functions in nonlinear optimization. Journal of the Optical Society of America A, 18, 338–351.
Google Scholar
Chen, C. W. and H. A. Zebker (2002). Phase unwrapping for large SAR interferograms: Statistical segmentation and generalised network models. IEEE Transactions on Geoscience and Remote Sensing, 40(8), 1709–1719.
Google Scholar
Chen, Q., D. H. Bromwich, and L. Bai (1997). Precipitation over Greenland retrieved by a dynamic method and its relation to cyclonic activity. Journal of Climate, 10(5), 839–870.
Google Scholar
Ching, N. H., D. Rosenfeld, and M. Braun (1992). Two-dimensional phase unwrapping using a minimum spanning tree algorithm. IEEE Transactions on Image Processing, 1(3), 355–365.
Google Scholar
Cloude, S. R. (2004). Radar polarimetry and interferometry: A tutorial introduction. IEEE Geoscience and Remote Sensing Society Newsletter, 131, 25–29.
Google Scholar
Cloude, S. R. and K. P. Papathanassiou (1998). Polarimetric SAR interferometry. IEEE Transactions on Geoscience Remote Sensing, 36(5), 1551–1565.
Google Scholar
Cloude, S. R. and E. Pottier (1997). Polarimetric SAR interferometry. IEEE Transactions on Geoscience and Remote Sensing, 36(5), 68–78.
Google Scholar
Colbeck, S. C. (1982). An overview of seasonal snow metamorphism. Reviews of Geophysics and Space Physics, 20(1), 45–61.
Google Scholar
Costantini, M. (1998). A novel phase unwrapping method based on network programming. IEEE Transactions on Geoscience and Remote Sensing, 36(3), 813–821.
Google Scholar
Costantini, M. (1999). A method for phase unwrapping in the presence of dense fringe patterns. Proceedings of ESA Fringe’ 99 Meeting, November 10–12, Liege, Belgium (CD-ROM, ESA Special Publication SP-478). ESA, Noordwijk, The Netherlands.
Google Scholar
Coulson, S. N. (1993). SAR interferometry with ERS-1. ESA Earth Observation Quarterly, 40, 20–23.
Google Scholar
Cullather, R. I., D. H. Bromwich, and M. L. Van Woert (1998). Spatial and temporal variability of Antarctic precipitation from atmospheric methods. Journal of Climate, 11,334-368.
Google Scholar
Cumming, I. and F. Wong. (1998). The effect of ScanSAR parameters on interferogram quality. Proceedings of International Geoscience and Remote Sensing Symposium IGARSS’ 98, Seattle, WA, 6–10 July 1998. Institute of Electrical and Electronic Engineers, Piscataway, NJ, Vol. 5, pp. 1635–1637.
Google Scholar
Cumming, I. and J. Zhang (1999). Measuring the 3-D flow of the Lowell Glacier with InSAR. Proceedings of ESA Fringe’ 99 Meeting, November 10–12, Liege, Belgium (CD-ROM, ESA Special Publication SP-478). ESA, Noordwijk, The Netherlands.
Google Scholar
Cumming, I. G., J.-L. Valero, P. W. Vachon, M. Brugman, K. Mattar, D. Geudtner, M. S. Seymour, and A. L. Gray (1996a). Results of ERS interferometry measurements of alpine glaciers. Proceedings of 18th Annual Symposium of the Canadian Remote Sensing Society, Vancouver, B.C., March 25–29. Canadian Remote Sensing Society, Canadian Aeronautics and Space Institute, pp. 324–329.
Google Scholar
Cumming, I., J.-L. Valero, M. Seymour, P. Vachon, K. Mattar, D. Geudtner, and L Gray (1996b). Glacier flow measurements with ERS tandem mission data. Proceedings of “Fringe 96” Workshop on ERS SAR Interferometry, September 30–October 2, Zurich, Switzerland (ESA SP-406). Available online at 〈http://www.geo.unizh.ch/rsl/fringe96/〉.
Google Scholar
Curlander, J. C. and R. N. McDonough (1991). Synthetic Aperture Radar: Systems and Signal Processing. John Wiley & Sons, New York, 647 pp.
Google Scholar
Dall, J. and H. Skriver (2003). Pol-InSAR. Available online at 〈http://www.emi.dtu.dk/research/DCRS/Technology/polinsar.html〉.
Google Scholar
Dall, J., S. N. Madsen, K. Keller, and R. Forsberg (2000). Using airborne SAR interferometry to measure the elevation of a Greenland Ice Cap. Proceedings of IEEE 2000 International Geoscience and Remote Sensing Symposium, Honolulu, July. Institute of Electrical and Electronics Engineers, Piscataway, NJ, pp. 1125–1127
Google Scholar
Dall, J., S. N. Madsen, K. Keller, and R. Forsberg (2001). Topography and penetration of the Greenland Ice Sheet measured with airborne SAR interferometry. Geophysical Research Letters, 28(9), 1703–1706.
Google Scholar
Dall, J., K. P. Papathanassiou, and H. Skriver (2003). Polarimetric SAR interferometry applied to land ice: First results. Proceedings of International Geoscience and Remote Sensing Symposium IGARSS’ 03, Toulouse, France, July. Institute of Electrical and Electronics Engineers, Piscataway, NJ, pp. 1432–1434.
Google Scholar
Dall, J., K. P. Papathanassiou, and H. Skriver (2004). Polarimetric SAR interferometry applied to land ice: Modeling. Proceedings of EUSAR 2004 Conference, Ulm, Germany, 25–27 May 2004. VDE Verlag, Frankfurt, Germany, pp. 247–250.
Google Scholar
Dammert, P. B. G., M. Leppäranta, and J. Askne (1998). SAR interferometry over Baltic Sea ice. International Journal of Remote Sensing, 19(16), 3019–3037.
Google Scholar
D’Elia, S. and R. Biasutti (1999). DESCW: PC Software Supporting Remote Sensing Data (ESA Bulletin 97). Available online at 〈http://esapub.esrin.esa.it/bulletin/bullet97/ delia.pdf〉.
Google Scholar
Derauw, D. (1999). DInSAR and coherence tracking applied to glaciology: The example of Shirase Glacier. Proceedings of ESA Fringe’ 99 Meeting, November 10–12, Liege, Belgium (CD-ROM, ESA Special Publication SP-478). ESA, Noordwijk, The Netherlands.
Google Scholar
Dixon, T. (ed.) (1994). SAR interferometry and surface change detection. Workshop in Boulder, February 3 and 4 (a report). Available online at 〈ttp://southport.jpl.nasa.gov/scienceapps/dixon/index.html〉.
Google Scholar
Eineder, M. (2003). Oscillator clock drift compensation in bistatic interferometric SAR. Proceedings of International Geoscience and Remote Sensing Symposium IGARSS’ 03. Institute of Electrical and Electronics Engineers, Washington, D.C.
Google Scholar
Eineder, M. and S. Suchandt (2003). Recovering radar shadow to improve interferometric phase unwrapping and DEM reconstruction. IEEE Transactions on Geoscience and Remote Sensing, 41(12), 2959–2962.
Google Scholar
Eineder, M., M. Hubig, and B. Milcke (1998). Unwrapping large interferograms using minimum cost flow algorithm. Proceedings of International Geoscience and Remote Sensing Symposium IGARSS’ 98, Seattle, WA, 6–10 July 1998. Institute of Electrical and Electronic Engineers, Piscataway, NJ, Vol. 1, pp. 83–87.
Google Scholar
Eineder, M., B. Schättler, M. Hubig, W. Knöpfle, N. Adam, and H. Breit (1999). Operational processing large areas of interferometric SAR data. Proceedings of ESA Fringe’ 99 Workshop, Liege, Belgium, 10–12 November 1999. ESA, Noordwijk, The Netherlands.
Google Scholar
Eineder, M., H. Runge, E. Boerner, R. Bamler, N. Adam, B. Schättler, H. Breit, and S. Suchandt (2004). SAR interferometry with TerraSAR-X. Proceedings of Fringe’ 03 Workshop, 1–5 December 2003, Frascati, Italy (ESA SP-550). ESA, Noordwijk, The Netherlands.
Google Scholar
Ekholm, S. (1996). A full coverage, high-resolution, topographic model of Greenland, computed from a variety of digital elevation data. Journal of Geophysical Research, B10(21), 961–972.
Google Scholar
Elachi, C. (1987). Introduction to the Physics and Techniques of Remote Sensing. John Wiley & Sons, New York, 413 pp.
Google Scholar
Elachi, C. (1988). Spaceborne Radar Remote Sensing: Applications and Techniques. Institute of Electrical and Electronics Engineers Press, New York.
Google Scholar
Engdahl, M. (1996). Phase unwrapping in SAR interferometry using instantaneous frequency estimation. MSc thesis, Faculty of Information Technology, Department of Technical Physics, Helsinki University of Technology.
Google Scholar
ESA (2001). ERS SAR interferometry-derived information on Antarctica and Greenland: The VECTRA Cooperation Project. ESA Earth Observation Quarterly, 68, Supplement, 4 pp.
Google Scholar
ESA (2003). All that Glitters: The First ERS/Envisat Interferogram. Available online at 〈http://www.esa.int/export/esaCP/SEM97H5V9ED_index_0. html〉.
Google Scholar
Evans, N. and R. Girard (2002). Radarsat-2/-3: An innovative opportunity for a global topographic mapping mission. 53rd International Astronautical Congress, 12–15 October 2002, Houston, TX (Paper IAC-02-B.05.03). American Institute of Aeronautics and Astronautics, Reston, VA.
Google Scholar
Fahnestock, M., R. Bindschadler, R. Kwok, and K. Jezek (1993). Greenland ice-sheet surface properties and ice dynamics from ERS-1 SAR imagery. Science, 262(5139), 1530–1534.
Google Scholar
Fatland, D. R. and C. S. Lingle (1998). Analysis of the 1993–95 Bering Glacier (Alaska) surge using differential SAR interferometry. Journal of Glaciology, 44(148), 532–546.
Google Scholar
Fiedler, H., G. Krieger, F. Jochim, M. Kirschner, and A. Moreira (2002). Analysis of Satellite Configurations from Spaceborne SAR Interferometry. Available online at 〈http://www.weblab.dlr.de/rbrt/pdf/SFF_0223. pdf〉.
Google Scholar
Fischer, A., H. Rott, and H. Björnsson (2003). Observation of recent surges of Vatnajökull, Iceland, by means of ERS SAR interferometry. Annals of Glaciology, 37, 69–76.
Google Scholar
Fitch, J. P. (1988). Synthetic Aperture Radar. Springer-Verlag, New York.
Google Scholar
Forster, R. R., K. Jezek, L. Gray, and K. Mattar (1998). Analysis of glacier flow dynamics from preliminary Radarsat InSAR data of the Antarctic Mapping Mission. International Geoscience and Remote Sensing Symposium, Seattle, WA, July.
Google Scholar
Flynn, T. J. (1997). Two-dimensional phase unwrapping with minimum weighted discontinuity. Journal of the Optical Society of America A, 14, 2692–2701.
Google Scholar
Fornaro, G. and E. Sansosti (1999). A two-dimensional region growing least squares phase unwrapping algorithm for interferometric SAR processing. IEEE Transactions on Geoscience and Remote Sensing, 37(5), 2215–2226.
Google Scholar
Fornaro, G., G. Franceschetti, and R. Lanari (1996a). Interferometric SAR phase unwrapping using Green’s formulation. IEEE Transactions on Geoscience and Remote Sensing, 34, 720–727.
Google Scholar
Fornaro, G., G. Franceschetti, R. Lanari, and E. Sansosti (1996b). Robust phase unwrapping techniques: A comparison. Journal of the Optical Society of America A, 13, 2355–2366.
Google Scholar
Fornaro, G., G. Franceschetti, R. Lanari, E. Sansosti, and M. Tesauro (1997). Global and local phase unwrapping technique: A comparison. Journal of the Optical Society of America A, 14, 2702–2708.
Google Scholar
Forster, R. R., K. C. Jezek, H. G. Sohn, A. L. Gray, and K. E. Matter (1998). Analysis of glacier flow dynamics from preliminary Radarsat InSAR data of the Antarctic Mapping Mission. Proceedings of International Geoscience and Remote Sensing Symposium IGARSS’ 98, Seattle, WA, 6–10 July 1998, Institute of Electrical and Electronic Engineers, Piscataway, NJ, pp. 2225–2227.
Google Scholar
Forster, R. R., E. Rignot, B. L. Isacks, and K. C. Jezek (1999). Interferometric radar observations of glaciers Europa and Penguin, Hielo Patagónico Sur, Chile. Journal of Glaciology, 45(150), 325–337.
Google Scholar
Forster, R. R., K. C. Jezek, L. Koenig, and E. Deeb (2003). Measurement of glacier geophysical properties from InSAR wrapped phase. IEEE Transactions on Geoscience and Remote Sensing, 41(11), 2595–2604.
Google Scholar
Franceschetti, G. and G. Fornaro (1999). Synthetic aperture radar interferometry. In: G. Franceschetti and R. Lanari (eds.), Synthetic Aperture Radar Processing. CRC Press, Boca Raton, FL, pp. 167–223
Google Scholar
Frezzotti, M., S. Gandolfo, F. La Marca, and S. Urbini (2002). Snow dunes and glazed surfaces in Antarctica: New field and remote sensing data. Annals of Glaciology, 34, 81–88.
Google Scholar
Fricker, H. A., N. W. Young, I. Allison, and R. Coleman (2002). Iceberg calving of the Amery Ice Shelf, East Antarctica. Annals of Glaciology, 34, 241–246.
Google Scholar
Frolich, R. M. and C. S. M. Doake (1998). Synthetic aperture radar interferometry over Rutford Ice Stream and Carlson Inlet, Antarctica. Journal of Glaciology, 44(146), 77–92.
Google Scholar
Frölind, P.-O. and L. M. H. Ulander (2002). Digital elevation map generation using VHF-band SAR data in forested areas. IEEE Transactions on Geoscience and Remote Sensing, 40(8), 1769–1776.
Google Scholar
Fujii, Y. and K. Kusunoki (1982). The role of sublimation and condensation in the formation of ice sheet surface at Mizuho Station, Antarctica. Journal of Geophysical Research, 87(C6), 4293–4300.
Google Scholar
Gabriel, A. K. and R. M. Goldstein (1988). Crossed orbit interferometry: Theory and experimental results from SIR-B. International Journal of Remote Sensing, 9(5), 857–872.
Google Scholar
Gabriel, A. K., R. M. Goldstein, and H. A. Zebker (1989). Mapping small elevation changes over large areas: Differential radar interferometry. Journal of Geophysical Research, 94(B7), 9183–9191.
Google Scholar
Gatelli, F., A. Monti Guarnieri, F. Parizzi, P. Pasquali, C. Prati, and F. Rocca (1994). The wavenumber shift in SAR interferometry. IEEE Transactions on Geoscience and Remote Sensing, 32(4), 855–865.
Google Scholar
Gens, R. (1998). Quality assessment of SAR interferometric data. PhD thesis, University of Hannover, Germany, 141 pp.
Google Scholar
Gens, R. (1999a). Quality assessment of interferometrically derived digital elevation models. International Journal of Applied Earth Observation and Geoinformation, 1(2), 102–108.
Google Scholar
Gens, R. (1999b). SAR interferometry: Software, data format and data quality. Photogrammetric Engineering and Remote Sensing, 65(12), 1375–1378.
Google Scholar
Gens, R. (2003). Two-dimensional phase unwrapping for radar inteferometry: Developments and new challenges. International Journal of Remote Sensing, 24(4), 703–710.
Google Scholar
Gens, R. and T. Logan (2003). Alaska Satellite Facility Software Tools Manual. Available online at 〈http://www.asf.alaska.edu/apdldocuments/pdf/asf_software_tools.pdf〉.
Google Scholar
Gens, R. and J. L. van Genderen (1996a). SAR interferometry: Issues, techniques, applications. International Journal of Remote Sensing, 17(10), 1803–1835.
Google Scholar
Gens, R. and J. L. van Genderen (1996b). Analysis of the geometric parameters of SAR interferometry for spaceborne systems. International Archives of Photogrammetry and Remote Sensing (Vol. XXXI, Part B2). ISPRS, Vienna, pp. 107–110.
Google Scholar
Geudtner, D. (1996). The Interferometric Processing of ERS-1 SAR Data (ESA Technical Report ESA-TT-1341, translation of DLR-FB 95-28). ESA, Noordwijk, The Netherlands.
Google Scholar
Geudtner, D. and M. Schwäbisch (1996). An algorithm for precise reconstruction of InSAR imaging geometry: Application to “flat Earth” phase removal, phase-to-height conversion, and geocoding of InSAR-derived DEMs. Proceedings of EUSAR’ 96, Germany. VDE Verlag, Frankfurt, Germany, pp. 249–252.
Google Scholar
Geudtner, D., P. W. Vachon, K. E. Mattar, and A. L. Gray (1997). Radarsat repeat-pass SAR interferometry: Results over an Arctic test site. Proceedings of Geomatics in the Era of Radarsat (GER’ 97), May 27–30, Ottawa (CD-ROM).
Google Scholar
Geudtner, D., P. W. Vachon, K. E. Mattar, and A. L. Gray (1998). Radarsat repeat-pass SAR interferometry. Proceedings of International Geoscience and Remote Sensing Symposium IGARSS’ 98, Seattle, WA, 6–10 July 1998. Institute of Electrical and Electronic Engineers, Piscataway, NJ, Vol. 3, pp. 1635–1637.
Google Scholar
Ghiglia, D. and M. Pritt (1998). Two-dimensional Phase Unwrapping: Theory, Algorithms, and Software. John Wiley & Sons, New York, 494 pp.
Google Scholar
Ghiglia, D. C. and L. A. Romero (1994). Robust two-dimensional weighted and unweighted phase unwrapping that uses fast transform and iterative methods. Journal of the Optical Society of America A, 11, 107–117.
Google Scholar
Ghiglia, D. C. and L. A. Romero (1996). Minimum L ^p-norm two-dimensional phase unwrapping. Journal of the Optical Society of America A, 13, 1999–2013.
Google Scholar
Girard, R., P. F. Lee, and K. James (2002). The RADARSAT-2 and-3 topographic mission: An overview. Proceedings of International Geoscience and Remote Sensing Symposium IGARSS’ 02, Toronto, Canada. Institute of Electrical and Electronic Engineers, Piscataway, NJ, Vol. 3, pp. 1477–1479.
Google Scholar
Gill, E. and H. Runge (2003). Tight formation flying for an along-track SAR interferometer. 54th International Astronautical Congress, 29 September–3 October 2003, Bremen, Germany. International Astronautical Federation, Paris, IAC-03-B.4.01, 11 pp.
Google Scholar
Goldstein, R. (1995). Atmospheric limitations to repeat-track radar interferometry. Geophysical Research Letters, 22(18), 2517–2520.
Google Scholar
Goldstein, R. and C. Werner (1997). Radar ice motion interferometry. Proceedings of 3rd ERS Symposium on Space, Florence, Italy, March 17–21. ESA, Noordwijk, The Netherlands, Vol. 2, pp. 969–972.
Google Scholar
Goldstein, R. M. and C. L. Werner (1998). Radar interferogram filtering for geophysical applications. Geophysical Research Letters, 25, 4035–4038.
Google Scholar
Goldstein, R. M. and H. A. Zebker (1987). Interferometric radar measurement of ocean surface currents. Nature, 328, 707–709.
Google Scholar
Goldstein, R. M., H. A. Zebker, and C. L. Werner (1988). Satellite radar interferometry: Two-dimensional phase unwrapping. Radio Science, 23(4), 713–720.
Google Scholar
Goldstein, R. M., H. Engelhardt, B. Kamb, and R. M. Frolich (1993). Satellite radar interferometry for monitoring ice sheet motion: Application to an Antarctic ice stream. Science, 262(5139), 1525–1530.
Google Scholar
Goodwin, I. D. (1990). Snow accumulation and surface topography in the katabatic zone of eastern Wilkes Land, Antarctica. Antarctic Science, 2(3), 235–242.
Google Scholar
Graham, L. C. (1974). Synthetic interferometer radar for topographic mapping. Proceedings of the IEEE, 62(6), 763–768.
Google Scholar
Gray, A. L., K. E. Mattar, P. W. Vachon, R. Bindschadler, K. C. Jezek, R. Forster, and J. P. Crawford (1998). InSAR results from the Radarsat Antarctic Mapping Mission data: Estimation of glacier motion using a simple regression procedure. Proceedings of International Geoscience and Remote Sensing Symposium IGARSS’ 98. Institute of Electrical and Electronic Engineers, Piscataway, NJ, Vol. 3, pp. 1638–1640.
Google Scholar
Gray, A. L., K. E. Mattar, and N. Short (1999). Speckle tracking for 2-dimensional ice motion studies in polar regions. Proceedings of 2nd International Workshop on ERS SAR Interferometry, “Fringe’ 99”, Liege, Belgium, November 10–12 (CD-ROM, ESA Special Publication SP-478). ESA, Noordwijk, The Netherlands, pp. 1–8.
Google Scholar
Gray, L., K. E. Mattar, and G. Sofko (2000). Influence of ionospheric electron density fluctuations on satellite radar interferometry. Geophysical Research Letters, 27(10), 1451–1454.
Google Scholar
Gray, A. L., N. Short, K. E. Mattar, and K. C. Jezek (2001). Velocities and flux of the Filchner Ice Shelf and its tributaries determined from speckle tracking interferometry. Canadian Journal of Remote Sensing, 27(3), 193–206.
Google Scholar
Gray, L., N. Short, R. Bindschadler, I. Joughin, L. Padman, P. Vornberger, and A. Khananian (2002). Radarsat interferometry for Antarctic grounding-zone mapping. Annals of Glaciology, 34, 269–276.
Google Scholar
Gruber, T., F.-H. Massmann, and C. Reigber (1996). ERS D-PAF Altimeter and Orbit Global Products Manual (Technical Report ERS-D-GPM-31200, GFZ/D-PAF). Zentrum der Deutschland für Luft-und Raumfahrt, Oberpfaffenhofen, Germany.
Google Scholar
Gudmundsson, S., J. M. Carstensen, and F. Sigmundsson (2002). Unwrapping ground displacement signals in satellite radar interferograms with aid of GPS and MRF regularization. IEEE Transactions on Geoscience and Remote Sensing, 40(8), 1743–1754.
Google Scholar
Guijarro, J., A. Auriol, M. Costes, C. Jayles, and P. Vincent (2000). MWR and DORIS—Supporting Envisat’s Radar Altimery Mission (ESA Bulletin 104, pp. 41–46). Available online at 〈http://esapub.esrin.esa.it/bulletin/bullet104/guijarrol04.pdf〉.
Google Scholar
Guneriussen, T., K. A. Hogda, H. Johnsen, and I. Lauknes (2001). InSAR for estimation of changes in snow water equivalent of dry snow. IEEE Transactions on Geoscience and Remote Sensing, 39(10), 2101–2108.
Google Scholar
Guritz, R., O. Lawlor, T. Logan, R. Fatland, J. Groves, S. Li, and V. Kaupp (1998). Automated digital elevation model (DEM) production using ERS SAR Tandem pairs. Proceedings of International Geoscience and Remote Sensing Symposium IGARSS’ 98, Seattle, WA. Institute of Electrical and Electronic Engineers, Piscataway, NJ, poster.
Google Scholar
Hanssen, R. (1998). Atmospheric Heterogeneities in ERS Tandem SAR Interferometry (DEOS Report 98.1). Delft University Press, The Netherlands.
Google Scholar
Hanssen, R. (2001). Radar Interferometry: Data Interpretation and Error Analysis. Kluwer Academic, Dordrecht, The Netherlands.
Google Scholar
Hanssen, R. and R. Bamler (1999). Evaluation of interpolation kernels for SAR interferometry. IEEE Transactions on Geoscience and Remote Sensing, 37(1), 318–321.
Google Scholar
Harbin, M. (2005). Additional Antarctic acquisition opportunities. Alaska Satellite Facility News and Notes, 2(1), 2 [Alaska Satellite Facility, Fairbanks, AK].
Google Scholar
Hartl, P. and X. Wu (1993). SAR interferometry: Experiences with various phase unwrapping methods. Proceedings of 2nd ERS-1 Symposium, Hamburg, Germany. ESA, Noordwijk, The Netherlands, pp. 727–732.
Google Scholar
Hein, A. (2004). Processing of SAR Data: Fundamentals, Signal Processing, Interferometry (Signals and Communication Technology series). Springer-Verlag, Berlin.
Google Scholar
Hellwich, O. (1999a). Basic principles and current issues of SAR interferometry. Proceedings of ISPRS Joint Workshop Sensors and Mapping from Space, September 27–30 (No. 18, CD-ROM). Institut für Photogrammetrie und Ingenieurvermessungen, Universität Hannover.
Google Scholar
Hellwich, O. (1999b). SAR interferometry: Principles, processing, and perspectives. In: C. Heipke and H. Mayer (eds.), Festschrift für Prof. Dr.-Ing. Heinrich Ebner zum 60 Geburtstag. Technische Universität, Munich, Germany, pp. 109–120.
Google Scholar
Henderson, F. M. and A. J. Lewis (eds.) (1998). Principles and Applications of Imaging Radar, Manual of Remote Sensing (3rd edn., Vol. 2). John Wiley & Sons, New York, 896 pp.
Google Scholar
Hirose, T. and P. W. Vachon (1998). Demonstration of ERS Tandem Mission SAR interferometry for mapping land fast ice evolution. Canadian Journal of Remote Sensing, 24(1), 89–92.
Google Scholar
Herráez, M. A., D. R. Burton, M. J. Lalor, and M. A. Gdeisat (2002). Fast two-dimensional phase-unwrapping algorithm based on sorting by reliability following a noncontinuous path. Applied Optics, 41(35), 7437–7444.
Google Scholar
Hoen, E. W. and H. A. Zebker (2000a). Penetration depths inferred from interferometric volume decorrelation observed over the Greenland Ice Sheet. IEEE Transactions on Geoscience and Remote Sensing, 38(6), 2571–2583.
Google Scholar
Hoen, E. W. and H. A. Zebker (2000b). Topography-driven variations in backscatter strength and depth observed over the Greenland Ice Sheet with InSAR. Proceedings of International Geoscience and Remote Sensing Symposium IGARSS’ 00. Institute of Electrical and Electronic Engineers, Piscataway, NJ, Vol. 2, pp. 470–472.
Google Scholar
Holdsworth, G. (1969). Flexure of a floating ice tongue. Journal of Glaciology, 8(54), 385–397.
Google Scholar
Holzner, J. and R. Bamler (2002). Burst-mode and ScanSAR interferometry. IEEE Transactions on Geoscience and Remote Sensing, 40(9), 1917–1934.
Google Scholar
Hung, K. M. and T. Yamada (1998). Phase unwrapping by regions using least-squares approach. Optical Engineering, 37, 2965–2970.
Google Scholar
Huntley, J. M. (1989). Noise-immune phase unwrapping algorithm. Applied Optics, 23, 3268–3270.
Google Scholar
Hvidberg, C. S., K. Keller, N. S. Gundestrup, C. C. Tscherning, and R. Forsberg (1997). Mass balance and surface movement of the Greenland Ice Sheet at Summit, Central Greenland. Geophysical Research Letters, 24(18), 2307–2310.
Google Scholar
Hyland, G. and N. W. Young (2002). Velocity and strain rates derived from InSAR analysis over the Amery Ice Shelf, East Antarctica. Annals of Glaciology, 34, 228–234.
Google Scholar
Iken, A., K. Echelmeyer, W. Harrison, and M. Funk (1993). Mechanisms of fast flow in Jakobshavns Isbrae, Greenland: Part 1. Measurements of temperature and water level in deep boreholes. Journal of Glaciology, 39(131), 15–25.
Google Scholar
Jezek, K. C. (1999). Glaciological properties of the Antarctic ice sheet from Radarsat-1 synthetic aperture radar imagery. Annals of Glaciology, 29, 286–290.
Google Scholar
Jezek, K. (2002). Radarsat-1 Antarctic Mapping Project: Change-detection and surface velocity campaign. Annals of Glaciology, 34, 263–268.
Google Scholar
Jezek, K. and E. Rignot (1994). Katabatic wind processes on the Greenland Ice Sheet. EOS, Transactions of the American Geophysical Union, 75(Suppl. 212), 44.
Google Scholar
Jezek, K., K. H. Sohn, and K. Noltimier (1998). The Radarsat Antarctic Mapping Project. Proceedings of International Geoscience and Remote Sensing Symposium IGARSS’ 98, Seattle, WA, 6–10 July 1998. Institute of Electrical and Electronic Engineers, Piscataway, NJ, Vol. 5, pp. 2462–2464.
Google Scholar
Jordan, R. L., Caro, E. R., Kim, Y., Kobrik, M., Shen, Y., and Stuhr, F. V. (1996). Shuttle radar topography mapper (SRTM). In: G. Franceschetti, C. J. Oliver, F. S. Rubertone, and S. Tajbakhsh (eds.), Microwave Sensing and Synthetic Aperture Radar. International Society for Optical Engineering, Bellingham, WA, pp. 412–422.
Google Scholar
Joughin, I. (1995). Estimation of ice sheet topography and motion using interferometric synthetic aperture radar. PhD thesis, University of Washington, Seattle, WA.
Google Scholar
Joughin, I. (2002). Ice-sheet velocity mapping: A combined interferometric and speckle-tracking approach. Annals of Glaciology, 34, 195–201.
Google Scholar
Joughin, I. R. and D. P. Winebrenner (1994). Effective number of looks for a multi-look interferometric phase distribution, Proceedings of International Geoscience and Remote Sensing Symposium IGARSS’ 94, Pasadena, CA. Institute of Electrical and Electronic Engineers, Piscataway, NJ, pp. 2276–2278.
Google Scholar
Joughin I., D. P. Winebrenner, and D. B. Percival (1994). Probability density functions for multilook polarimetric signatures. IEEE Transactions on Geoscience and Remote Sensing, 32, 562–574.
Google Scholar
Joughin, I. R., D. P. Winebrenner, and M. A. Fahnestock (1995). Observations of ice-sheet motion in Greenland using satellite radar interferometry. Geophysical Research Letters, 22, 571–574.
Google Scholar
Joughin, I., S. Tulaczyk, M. Fahnestock, and R. Kwok (1996a). A mini-surge on the Ryder Glacier, Greenland observed via satellite radar interferometry. Science, 274, 1525–1530.
Google Scholar
Joughin, I., D. Winebrenner, M. Fahnestock, R. Kwok, and W. Krabill (1996b). Measurement of ice-sheet topography using satellite-radar interferometry. Journal of Glaciology, 42(140), 10–22.
Google Scholar
Joughin, I., R. Kwok, and M. Fahnestock (1996c). Estimation of ice-sheet motion using satellite radar interferometry: Method and error analysis with application to Humboldt Glacier, Greenland. Journal of Glaciology, 42(142), 564–575.
Google Scholar
Joughin, I., M. Fahnestock, S. Ekholm, and R. Kwok (1997). Balance velocities for the Greenland Ice Sheet. Geophysical Research Letters, 24(23), 3045–3048.
Google Scholar
Joughin, I. R., R. Kwok, and M. A. Fahnestock (1998a). Interferometric estimation of three-dimensional ice-flow using ascending and descending passes. IEEE Transactions on Geoscience and Remote Sensing, 36(1), 25–37.
Google Scholar
Joughin, I., M. Fahnestock, R. Thomas, and R. Kwok (1998b). Ice flow in northeast Greenland using balance velocities as control. Proceedings of International Geoscience and Remote Sensing Symposium IGARSS’ 98, Seattle, WA. Institute of Electrical and Electronic Engineers, Piscataway, NJ, Vol. 4, pp. 2246–2248.
Google Scholar
Joughin, I., M. Fahnestock, R. Kwok, P. Gogineni, and C. Allen (1999a). Ice flow of Humboldt, Petermann and Ryder Gletscher, northern Greenland. Journal of Glaciology, 45(150), 231–241.
Google Scholar
Joughin, I., L. Gray, R. Bindschadler, S. Price, D. Morse, C. Hulbe, K. Mattar, and C. Werner (1999b). Tributaries of West Antarctic ice streams revealed by Radarsat interferometry. Science, 286(5438), 283–286.
Google Scholar
Joughin, I., M. Fahnestock, and J. L. Bamber (2000). Ice flow in the northeast Greenland ice stream. Annals of Glaciology, 31, 141–146.
Google Scholar
Joughin, I., M. Fahnestock, D. MacAyeal, J. L. Bamber, and P. Gogineni (2001). Observation and analysis of ice flow in the largest Greenland ice stream. Journal of Geophysical Research, 106(D24), 34021–34034.
Google Scholar
Joughin, I., S. Tulaczyk, R. Bindschadler, and S. Price (2002). Changes in West Antarctic ice stream velocities: Observation and analysis. Journal of Geophysical Research, 107(B11), 2289, doi:10.1029/2001/JB001029.
Google Scholar
Just, D. and R. Bamler (1994). Phase statistics of interferograms with applications to synthetic aperture radar. Applied Optics, 33(20), 4361–4368.
Google Scholar
Kampes, B. M., R. F. Hanssen, and Z. Perski (2003). Radar interferometry with public domain tools. Proceedings of ESA Fringe’ 03 Workshop, December 1–5. ESA/ESRIN, Noordwijk, The Netherlands. Available online at 〈http://earth.esa.int/workshops/fringe03/〉.
Google Scholar
Keller, K., R. Forsberg, and C. S. Nielsen (1997). Kinematic GPS for ice sheet monitoring and SAR interferometry in Greenland. In: M.E. Cannon and G. Lachapelle (eds.), Proceedings of International Symposium on Kinematic Systems in Geodesy; Geomatics and Navigation, Banff, Canada, 3–6 June 1997. Department of Geomatics Engineering, University of Calgary, Calgary, Canada, pp. 525–528.
Google Scholar
Klees, R. (1999). SAR interferometry technology. XXII IUGG General Assembly, Birmingham, UK, July 19–30 (IAG Special Study Group 2.160, final report, period 1995–1999). International Union of Geodesy and Geophysics, University of Colorado, Boulder, CO.
Google Scholar
Klees, R. and R. Hanssen (2000). Basics of synthetic aperture radar interferometry and applications. Nordic Geodetic Commission (NKG) Autumn School, Nordic Geodesy towards the 21st Century, August 28–September 2, Fevik, Norway. Finnish Geodetic Institute, Masala, Finland, pp. 169–211.
Google Scholar
Klees, R. and D. Massonnet (1999). Deformation measurements using SAR interferometry: Potential and limitations. Geologie en Mijnbouw, 77, 161–176.
Google Scholar
Krabill, W. B., R. H. Thomas, C. F. Martin, R. N. Swift, and E. B. Frederick (1995). Accuracy of airborne laser altimetry over the Greenland Ice Sheet. International Journal of Remote Sensing, 16(7), 1211–1222.
Google Scholar
Krabill, W., Abdalati, W., Frederick, E., Manizade, S., Martin, C, Sonntag, J., Swift, R., Thomas, R., Wright, W., and J. Yungel (2000). Greenland Ice Sheet: High-elevation balance and peripheral thinning. Science, 289, 428–430.
Google Scholar
Krieger, G., M. Wendler, H. Fiedler, J. Mittermayer, and A. Moreira (2002). Performance analysis for bistatic interferometric SAR configurations. Proceedings of International Geoscience and Remote Sensing Symposium IGARSS’ 02, Toronto, Canada. Institute of Electrical and Electronic Engineers, Piscataway, NJ, Vol. 1, pp. 650–652.
Google Scholar
Kropatsch, W. G. and D. Strobl (1990). The generation of SAR layover and shadow maps from digital elevation models. IEEE Transactions on Geoscience and Remote Sensing, 28, 98–107.
Google Scholar
Kwoh, L. K., E. C. Chang, W. C. A. Heng, and H. Lim (1994). DEM generation from 35-day repeat pass ERS-1 interferometry. Proceedings of International Geoscience and Remote Sensing Symposium IGARSS’ 94, Pasadena, CA. Institute of Electrical and Electronic Engineers, Piscataway, NJ, pp. 2288–2290.
Google Scholar
Kwok, R. and M. A. Fahnestock (1996). Ice sheet motion and topography from radar interferometry. IEEE Transactions on Geoscience and Remote Sensing, 34(1), 189–200.
Google Scholar
Levanon, N. (1988). Radar Principles. John Wiley & Sons, New York.
Google Scholar
Li, F. and R. M. Goldstein (1990). Studies of multi-baseline interferometric synthetic aperture radars. IEEE Transactions on Geoscience and Remote Sensing, 28(1), 88–97.
Google Scholar
Li, S., L. Shapiro, L. McNutt, and A. Jeffers (1996). Application of satellite radar interferometry to the detection of sea ice deformation. Journal of the Remote Sensing Society of Japan, 16(2), 67–77.
Google Scholar
Lillesand, T. M. and R. W. Kiefer (2000). Remote Sensing and Image Interpretation (4th edn.). John Wiley & Sons, New York.
Google Scholar
Lin, Q., J. F. Vesecky, and H. A. Zebker (1992). New approaches in interferometric SAR data processing. IEEE Transactions on Geoscience and Remote Sensing, 30(3), 560–567.
Google Scholar
Lin, Q., J. F. Vesecky, and H. A. Zebker (1994). Phase unwrapping through fringe-line detection in synthetic aperture radar interferometry. Applied Optics, 33, 201–208.
Google Scholar
Linz Christensen, E., N. Skou, J. Dall, K. W. Woelders, J. H. Jørgensen, J. Granholm, and S. N. Madsen (1998). EMISAR: An absolutely calibrated polarimetric L-and C-band SAR. IEEE Transactions on Geoscience and Remote Sensing, 36(6), 1852–1865.
Google Scholar
Liu, H., K. C. Jezek, and B. Li (1999). Development of an Antarctic digital elevation model by integrating cartographic and remotely sensed data: A geographic information system based approach. Journal of Geophysical Research, 104(B10), 23199–23214.
Google Scholar
MacAyeal, D. R., E. Rignot, and C. L. Hulbe (1998). Ice-shelf dynamics near the front of the Filchner-Ronne Ice Shelf, Antarctica, revealed by SAR interferometry: Model/interferogram comparison. Journal of Glaciology, 44(147), 419–428.
Google Scholar
Madsen, S. and H. A. Zebker (1998). Imaging radar interferometry. In: F. Henderson and A. J. Lewis (eds.), Principles and Applications of Imaging Radar: Manual of Remote Sensing (3rd edn., Vol. 2, R. A. Ryerson, editor-in-chief). John Wiley & Sons, New York, pp. 359–380.
Google Scholar
Madsen, S. N., H. A. Zebker, and J. Martin (1993). Topographic mapping using radar interferometry: Processing techniques. IEEE Transactions on Geoscience and Remote Sensing, 31(1), 246–256.
Google Scholar
Madsen, S. N., J. M. Martin, and H. A. Zebker (1995). Analysis and evaluation of the NASA/JPL Across-track Interferometric SAR System. IEEE Transactions on Geoscience and Remote Sensing, 33(2), 383–391.
Google Scholar
Madsen, S. N., N. Skou, J. Granholm, K. Woelders, and E. L. Christensen (1996). A system for airborne SAR interferometry. International Journal of Electronics and Communications, 50(2), 106–111, 1996.
Google Scholar
Madsen, S. N., J. J. Mohr, and N. Reeh (1999). Mapping Greenland by ERS-1/2 InSAR for ice mass balance and dynamics studies. Proceedings of ESA Fringe’ 99 Meeting, November 10–12, Liège, Belgium (CD-ROM, ESA Special Publication SP-478). ESA, Noordwijk, The Netherlands. Available online at 〈http://www.esa.int/fringe99〉.
Google Scholar
Massman, F. H., J. C. Neymeyer, K. Raimondo, K. Enninghorst, and H. Li (1998). Quality of the D-PAF orbits before and after the inclusion of PRARE data. Proceedings of 3rd ERS Symposium (Vol. 3, SP-414). ESA, Noordwijk, The Netherlands, pp. 1655–1660.
Google Scholar
Massom, R. A., M. Pook, J. C. Comiso, N. Adams, J. Turner, T. Lachlan-Cope, and T. Gibson (2004). Precipitation over the interior East Antarctic Ice Sheet related to mid-latitude blocking-high activity. Journal of Climate, 17(10), 1914–1928.
Google Scholar
Massonnet, D. (1995) Limitations to SAR interferometry due to instrument, climate or target geometry instabilities. EARSeL Advances in Remote Sensing, Topography from Space, 4(2), 19–25.
Google Scholar
Massonnet, D. (1997). Satellite radar interferometry. Scientific American, February, 46–53.
Google Scholar
Massonnet, D. (2001). The interferometric cartwheel, a constellation of low cost receiving satellites to produce radar images that can be coherently combined. International Journal of Remote Sensing, 22(12), 2413–2430.
Google Scholar
Massonnet, D. and K. L. Feigl (1995). Discrimination of geophysical phenomena in satellite radar interferograms. Geophysical Research Letters, 22, 1537–1540.
Google Scholar
Massonnet, D. and K. L. Feigl (1998). Radar interferometry and its application to changes in the Earth’s surface. Reviews of Geophysics, 36(4), 441–500.
Google Scholar
Massonnet, D. and T. Rabaute (1993). Radar interferometry: Limits and potential. IEEE Transactions on Geoscience and Remote Sensing, 31(2), 455–464.
Google Scholar
Massonnet, D. and H. Vadon (1995). ERS-1 internal clock drift measured by interferometry. IEEE Transactions on Geoscience and Remote Sensing, 33(2), 401–408.
Google Scholar
Massonnet, D., M. Rossi, C. Carmona, F. Adragna, G. Peitzer, K. Feigl and T. Rabaute (1993). The displacement field of the Landers Earthquake mapped by radar interferometry. Nature, 364(8), 138–142.
Google Scholar
Massonnet, D., P. Briole, and A. Arnaud (1995). Deflation of Mount Etna monitored by spaceborne radar interferometry. Nature, 375, 567–570.
Google Scholar
Massonnet, D., Vadon, H., and M. Rossi (1996). Reduction of the need for phase unwrapping in radar interferometry. IEEE Transactions on Geoscience and Remote Sensing, 32, 489–497.
Google Scholar
Massonnet, D., Thouvenot, E., Ramongassie, S., Phalippou, L. (2000). A wheel of passive radar microsats for upgrading existing SAR projects. Proceedings of International Geoscience and Remote Sensing Symposium IGARSS’ 00, Honolulu, HI, 24–28 July 2000. Institute of Electrical and Electronic Engineers, Piscataway, NJ, Vol. 3, pp. 1000–1003.
Google Scholar
Mattar, K. E. and A. L. Gray (2002). Reducing ionospheric electron density errors in satellite radar interferometry applications. Canadian Journal of Remote Sensing, 28(4), 593–600.
Google Scholar
Mattar, K. E., A. L. Gray, D. Geudtner, and P. W. Vachon (1999). Interferometry for DEM and terrain displacement: Effects of inhomogeneous propagation. Canadian Journal of Remote Sensing, 25(1), 60–69.
Google Scholar
McLeod, I. H., I. G. Cumming, and M. S. Seymour (1998). Envisat ASAR data reduction: Impact on SAR interferometry. IEEE Transactions on Geoscience and Remote Sensing, 36(2), 589–602.
Google Scholar
Meyer, F. (2004). Topography and displacement of polar glaciers from multi-temporal SAR interferograms: Potentials, error analysis and validation. Proceedings of the XXth ISPRS Congress, July 12–23, Istanbul (Commission 3). International Society for Photogrammetry and Remote Sensing, Istanbul, Turkey.
Google Scholar
Michel, R. and E. Rignot (1999). Flow of Glaciar Moreno, Argentina, from repeat-pass Shuttle imaging radar images: Comparison of the phase correlation method with radar interferometry. Journal of Glaciology, 45(149), 93–100.
Google Scholar
Migliaccio, M. and F. Bruno (2002). Coherence loss minimization in SAR interferometric registration. International Geoscience and Remote Sensing Symposium, Toronto, Canada, June 24–28.
Google Scholar
Moccia, A. and S. Vetrella (1992). A tethered interferometric SAR for a topographic mission. IEEE Transactions on Geoscience and Remote Sensing, 30(1), 103–109.
Google Scholar
Mohr, J. J. (1997). Repeat track SAR interferometry: An investigation of its utility for studies of glacier dynamics. PhD thesis, Technical University of Denmark, Copenhagen.
Google Scholar
Mohr, J. J. and S. N. Madsen (1996a). Application of interferometry to studies of glacier dynamics. Proceedings of International Geoscience and Remote Sensing Symposium IGARSS’ 96, Lincoln, NE, 27–31 May 1996. Institute of Electrical and Electronic Engineers, Piscataway, NJ, pp. 276–278.
Google Scholar
Mohr, J. J. and S. N. Madsen (1996b). Multi-pass interferometry for studies of glacier dynamics. Proceedings of “Fringe 96” Workshop on ERS SAR Interferometry, Zurich, Switzerland (ESA SP-406). ESA, Noordwijk, The Netherlands, pp. 345–352.
Google Scholar
Mohr, J. J. and S. N. Madsen (1999). Error analysis for interferometric SAR measurements of ice sheet flow. Proceedings of International Geoscience and Remote Sensing Symposium IGARSS’ 99, Hamburg, Germany, June 28–July 2. Institute of Electrical and Electronics Engineers, Piscataway, NJ, pp. 98–100.
Google Scholar
Mohr, J. J. and S. N. Madsen (2000). Processing interferometric ERS-1/2 Tandem data cast to cast in Greenland. ESA ERS-Envisat Symposium, Gothenburg, Sweden, October 16–20
Google Scholar
Mohr, J. J. and S. N. Madsen (2001). Geometric calibration of ERS satellite SAR images. IEEE Transactions on Geoscience and Remote Sensing, 39(4), 842–850.
Google Scholar
Mohr, J. J. and N. Reeh (2002). Glacier surface velocity measurements from radar interferometry and the principle of mass conservation. Proceedings of International Geoscience and Remote Sensing Symposium IGARSS’ 02, 22’-28 June 2002, Toronto, Canada. Institute of Electrical and Electronic Engineers, Piscataway, NJ, Vol. 2, pp. 1054–1056.
Google Scholar
Mohr, J. J., S. N. Madsen and N. Reeh (1997). ERS Tandem study of glacier dynamics in NE-Greenland. Proceedings of the 3rd ERS Symposium, ESA SP-414, Florence, Italy, 17–21 March 1997. ESA, Noordwijk, The Netherlands, Vol. II, pp. 989–994.
Google Scholar
Mohr, J. J., N. Reeh, and S. N. Madsen (1998). Three dimensional glacial flow and surface elevation measured with radar interferometry. Nature, 391(6664), 273–276.
Google Scholar
Mohr, J. J., N. Reeh, and S. N. Madsen (2003). Accuracy of three-dimensional glacier surface velocities derived from radar interferometry and ice-sounding radar measurements. Journal of Glaciology, 49(165), 210–222.
Google Scholar
Monti Guarnieri, A. and C. Prati (1996). ScanSAR focusing and interferometry. IEEE Transactions on Geoscience and Remote Sensing, 34, 1029–1038.
Google Scholar
Monti Guarnieri, A. and C. Prati (1997). SAR interferometry: A “quick and dirty” coherence estimator for data. IEEE Transactions on Geoscience and Remote Sensing, 35(3), 660–669.
Google Scholar
Monti Guarnieri, A. and C. Prati (1999). An interferometric quick-look processor. IEEE Transactions on Geoscience and Remote Sensing, 37(2), 861–866.
Google Scholar
Monti Guarnieri, A., C. Prati, and F. Rocca (1995). Interferometry with ScanSAR, Proceedings of International Geoscience and Remote Sensing Symposium IGARSS’ 95, Florence, Italy, 10’14 July 1995. Institute of Electrical and Electronic Engineers, Piscataway, NJ, pp. 550–552.
Google Scholar
Monti Guarnieri, A., C. Prati, F. Rocca, and Y.-L. Desnos (1998). Wide baseline interferometry with very low resolution SAR systems. Proceedings of European Conference on Synthetic Aperture Radar, EUSAR’ 98, Berlin. VDE Verlag, Frankfurt, Germany, pp. 361–364.
Google Scholar
Moore, R. K., J. P. Claassen, and Y. H. Lin (1981). Scanning spaceborne synthetic aperture radar with integrated radiometer. IEEE Transactions on Aerospace and Electronic Systems, 17(3), 410–420.
Google Scholar
Moreira, A. (2003). TerraSAR-X: Upgrade to a fully polarimetric imaging mode. Proceedings of POLinSAR 2003, Workshop on Applications of SAR Polarimetry and Polarimetric Interferometry, Frascati, Italy, 14–16 January. ESA/ESRIN, Noordwijk, The Netherlands. Available online at 〈http://earth.esa.int/polinsar/se_spacebornesar.html〉.
Google Scholar
Morris, K., S. Li, and M. Jeffries (1999). Meso-and micro-scale sea-ice motion in the East Siberian Sea as determined from ERS-1 SAR data. Journal of Glaciology, 45(150), 370–383.
Google Scholar
NASDA (1995). JERS-1 Science Program Application Data Sets: JERS-1/SAR Interferometry (CD-ROM, Vol. 1). National Space Development Agency of Japan, Tokyo.
Google Scholar
Olmsted, C. (1993). Alaska SAR Facility Scientific SAR User’s Guide (ASF-SD-003). Alaska SAR Facility, Juneau, 53 pp.
Google Scholar
Padman, L. and C. Kottmeier (2000). High-frequency ice motion and convergence in the Weddell Sea. Journal of Geophysical Research, 105(19), 3379–3400.
Google Scholar
Padman, L., D. MacAyeal, and E. Rignot (2000). Analysis of Sub-ice-shelf Tides in the Weddell Sea Using SAR interferometry (Filchner-Ronne Ice Shelf Programme (FRISP) Report 13). Alfred-Wegener-Institut für Polar-und Meeresforschung, Bremerhaven, Germany, pp. 60–65.
Google Scholar
Padman, L., H. A. Fricker, R. Coleman, S. Howard, and L. Erofeeva (2002). A new tide model for the Antarctic ice shelves and seas. Annals of Glaciology, 34, 247–254.
Google Scholar
Papathanassiou, K. P. and S. R. Cloude (2001). Single baseline polarimetric SAR interferometry. IEEE Transactions on Geoscience and Remote Sensing, 39(11), 2352–2363.
Google Scholar
Parashar, S., E. Langham, J. McNally, and S. Ahmed (1993). Radarsat mission requirements and concepts. Canadian Journal of Remote Sensing, 18(4), 280–288.
Google Scholar
Parish, T. R. and D. H. Bromwich (1991). Continental-scale simulation of the Antarctic katabatic wind regime. Journal of Climate, 4(2), 135–146.
Google Scholar
Paterson, W. S. B. (1994). The Physics of Glaciers (3rd edn.). Pergamon/Elsevier Science, Oxford, UK, 480 pp.
Google Scholar
Pattyn, F. and D. Derauw (2002). Ice-dynamic conditions of Shirase Glacier, Antarctica, inferred from ERS SAR interferometry. Journal of Glaciology, 48(163), 559–565.
Google Scholar
Prati, C, F. Rocca, A. Guarnieri, and E. Damonti (1990). Seismic migration for SAR focusing: Interferometric applications. IEEE Transactions on Geoscience and Remote Sensing, 28(4), 627–640.
Google Scholar
Pritt, M. D. (1996). Phase unwrapping by means of multigrid techniques for interferometric SAR. IEEE Transactions on Geoscience and Remote Sensing, 34, 728–738.
Google Scholar
Pritt, M. D. and J. S. Shipman (1994). Least-squares two-dimensional phase unwrapping using FFTs. IEEE Transactions on Geoscience and Remote Sensing, 32, 706–708.
Google Scholar
Rabus, B., M. Eineder, A. Roth, and R. Bamler (2003). The Shuttle Radar Topography Mission: A new class of digital elevation models acquired by spaceborne radar. ISPRS Journal of Photogrammetry and Remote Sensing, 57, 241–262.
Google Scholar
Reeh, N. and N. Gundestrup (1985). Mass balance of the Greenland Ice Sheet at Dye 3. Journal of Glaciology, 31(108), 198–200.
Google Scholar
Reeh, N., Bøggild, C. E., and Oerter, H. (1994). Surge of Storstrømmen, a large outlet glacier from the inland ice of North-East Greenland, Grønlands Geologiske Undersøgelse Rapport, 162, 201–209, Copenhagen.
Google Scholar
Reeh, N., S. N. Madsen, and J. J. Mohr (1999). Combining SAR interferometry and the equation of continuity to estimate the three-dimensional glacier surface velocity. Journal of Glaciology, 45(151), 533–538.
Google Scholar
Reeh, N., J. J. Mohr, S. N. Madsen, H. Oerter, and N. Gundestrup (2003). Three-dimensional surface velocities of the Storstrømmen Glacier derived from radar interferometry and ice-sounding radar measurements. Journal of Glaciology, 49(165), 201–209.
Google Scholar
Rees, W. G. (2001). Physical Principles of Remote Sensing (2nd edn). Cambridge University Press, Cambridge, UK, 372 pp.
Google Scholar
Refice, A., G. Satalino, S. Stramaglia, M. T. Chiaradi, and N. Veneziani (1999). Weights determination for minimum cost flow InSAR phase unwrapping. Proceedings of International Geoscience and Remote Sensing Symposium IGARSS’ 99, Hamburg, Germany, 28 June’2 July 1999. Institute of Electrical and Electronic Engineers, Piscataway, NJ, Vol. 2, pp. 1342–1344.
Google Scholar
Richards, J. A. and X. Jia (2005). Remote Sensing Digital Image Analysis (4th edn.). Springer-Verlag, Berlin.
Google Scholar
Rignot, E. (1995). Backscatter model for the unusual radar properties of the Greenland Ice Sheet. Journal of Geophysical Research, 100(E5), 9389–9400.
Google Scholar
Rignot, E. (1996). Tidal motion, ice velocity and melt rate of Petermann Gletscher, Greenland, measured from radar interferometry. Journal of Glaciology, 42(142), 476–485.
Google Scholar
Rignot, E. (1998a). Radar interferometry detection of hinge-line migration on Rutford Ice Stream and Carlson Inlet, Antarctica. Annals of Glaciology, 27, 25–32.
Google Scholar
Rignot, E. (1998b). Hinge-line migration of Petermann Gletscher, north Greenland, detected using satellite radar interferometry. Journal of Glaciology, 44, 469–476.
Google Scholar
Rignot, E. (2002). Mass balance of East Antarctic glaciers and ice shelves from satellite data. Annals of Glaciology, 34, 217–227.
Google Scholar
Rignot, E. and R. H. Thomas (2002). Mass balance of polar ice sheets. Science, 297, 1502–1506.
Google Scholar
Rignot, E. J., K. C. Jezek, and H. G. Sohn (1995). Ice flow dynamics of the Greenland ice sheet from SAR interferometry. Geophysical Research Letters, 22, 575–578.
Google Scholar
Rignot, E., R. Forster, and B. Isacks (1996). Interferometric radar observations of Glaciar San Rafael, Chile. Journal of Glaciology, 42, 279–291.
Google Scholar
Rignot, E. J., S. P. Gogineni, W. B. Krabill, and S. Ekholm (1997). North and northeast Greenland ice discharge from satellite radar interferometry. Science, 276, 934–937.
Google Scholar
Rignot, E., L. Padman, D. R. MacAyeal, and M. Schmeltz (2000). Observation of ocean tides beneath the Filchner-Ronne Ice Shelf using SAR interferometry. Journal of Geophysical Research, 105(C8), 19615–19630.
Google Scholar
Rignot, E., K. Echelmeyer, and W. B. Krabill (2001). Penetration depth of interferometric synthetic-aperture radar signals in snow and ice. Geophysical Research Letters, 28(18), 3501–3504.
Google Scholar
Robinson, D. (1993). Phase unwrapping methods. In: W. R. Robinson and G. T. Reid (eds.), Interferogram Analysis: Digital Fringe Pattern Measurement Techniques. Institute of Physics, Bristol, pp. 194–229.
Google Scholar
Rocca, F., C. Prati, and A. Ferretti (1997). An overview of SAR interferometry. In: T. D. Guyenne (ed.), Proceedings of 3rd ERS Symposium, Space at the Service of Our Environment, Florence, Italy, 17–21 March 1997. ESA, Noordwijk, The Netherlands. Available online at 〈http://earth.esa.int/symposia/program-details/speeches/rocca-et-al/〉.
Google Scholar
Rodriguez, E. and J. M. Martin, Theory and design of interferometric synthetic aperture radars, IEEE Proceedings F, 139(2), 147–159.
Google Scholar
Rosen, P. A., S. Hensley, I. R. Joughin, F. K. Li, S. N. Madsen, E. Rodriguez, and R. M. Goldstein (2000). Synthetic aperture radar interferometry. Proceedings of the IEEE, 88(3), 333–382.
Google Scholar
Rosen, P. A., S. Hensley. G. Peltzer, and M. Simons (2004). Updated repeat orbit interferometry package released. EOS, Transactions of the American Geophysical Union, 3(47).
Google Scholar
Rossi, M., B. Rogron, and D. Massonnet (1996). JERS-1 SAR image quality and interferometric potential. IEEE Transactions on Geoscience and Remote Sensing, 34(3), 824–827.
Google Scholar
Rott, H. and A. Siegel (1996). Glaciological studies in the Alps and in Antarctica using ERS interferometric SAR. Proceedings of “Fringe’ 96” Workshop on ERS SAR Interferometry, Zurich, Switzerland, September 30–October 2 (Vol. 2, ESA SP-406). ESA, Noordwijk, The Netherlands, pp. 149–159.
Google Scholar
Rott, H., K. Sturm, and H. Miller (1993). Active and passive microwave: Signatures of Antarctic firn by means of field measurements and satellite data. Annals of Glaciology, 17, 337–343.
Google Scholar
Rufino, G., A. Moccia, and S Asposito (1996). DEM generation by means of ERS tandem data. Proceedings of “Fringe’ 96” Workshop on ERS SAR Interferometry, Zurich, Switzerland, September 30–October 2. ESA, Noordwijk, The Netherlands.
Google Scholar
Samson, J. (1996). Coregistration in SAR interferometry. MasterA’s thesis, Faculty of Geodetic Engineering, Delft University of Technology.
Google Scholar
Sanchez, J. I. and H. Laur (1997). The ERS SAR Products, Systems and Performances (Earthnet Online, ESA). Available online at 〈http://earthl.esrin.esa.it/florence/paperslprogram-details/data/sanchez/index.html〉
Google Scholar
Sandwell, D. and E. Price (1998). Phase gradient approach to stacking interferograms. Journal of Geophysical Research, 103(B12), 30183–30204.
Google Scholar
Scambos, T. A. and M. A. Fahnestock (1998). Improving digital elevation models over ice sheets using AVHRR-based photoclinometry. Journal of Glaciology, 44(146), 97–103.
Google Scholar
Scambos, T. A. and T. Haran (2002). An image-enhanced DEM of the Greenland Ice Sheet. Annals of Glaciology, 34, 291–298.
Google Scholar
Scambos, T. A., G. Kavaran, and M. A. Fahnestock (1999). Improving AVHRR resolution through data cumulation for mapping polar ice sheets. Remote Sensing of Environment, 69(1), 56–66.
Google Scholar
Scharroo, R. and P. N. Visser (1998). Precise orbit determination and gravity field improvement for the ERS satellites. Journal of Geophysical Research, 103(C4), 8113–8127.
Google Scholar
Scheiber, R. and A. Moreira (2000). Coregistration of interferometric SAR images using spectral diversity. IEEE Transactions on Geoscience and Remote Sensing, 38(5), 2179–2191.
Google Scholar
Schwäbisch, M. and D. Geudtner (1995). Improvement of phase and coherence map quality using azimuth pre-filtering: Examples from ERS-1 and X-SAR. Proceedings of International Geoscience and Remote Sensing Symposium IGARSS’ 95, Florence, Italy, 10–14 July 1995. Institute of Electrical and Electronic Engineers, Piscataway, NJ, pp. 205–207.
Google Scholar
Séguin, G. and R. Girard (2002). Interferometric missions using small satellite SAR satellites: Pecora 15. Land Satellite Information IV, ISPRS Commission I. Proceedings of Future Intelligent Earth Observation Satellites (FIEOS) 2002 Conference, 10–15 November 2002, Denver, CO. Available online at 〈http://www.isprs.org/commissionl/proceedings/paperl00053.pdf〉.
Google Scholar
Sharov, A. I. and K. Gutjahr (2002). Some methodological enhancements to InSAR surveying of polar ice caps. Observing Our Environment from Space: Proceedings of 21st EARSel Symposium. European Association of Remote Sensing Laboratories, Hannover, Germany, pp. 65–72.
Google Scholar
Sharov, A. I., K. Gutjahr, F. Meyer, and M. Schardt (2002). Methodical alternatives to the glacier motion measurement from differential SAR interferometry. International Archives of Photogrammetry and Remote Sensing, XXXIV(3A), 324–329.
Google Scholar
Shemer, L., M. Marom, and D. Markman (1993). Estimates of currents in the nearshore ocean region using interferometric synthetic aperture radar. Journal of Geophysical Research, 98(C4), 7001–7010.
Google Scholar
Shepherd, A. and J. J. Mohr (2001). ERS SAR interferometry-derived information on Antarctica and Greenland: The VECTRA Cooperation Project. Earth Observation Quarterly, 68, 1–4.
Google Scholar
Short, N. H. and A. L. Gray (2004). Potential for Radarsat-2 interferometry: Glacier monitoring using speckle tracking. Canadian Journal of Remote Sensing, 30(3), 504–509.
Google Scholar
Shuman, C. A. and R. B. Alley (1993). Spatial and temporal characterization of hoar formation in central Greenland using SSM/I brightness temperatures. Geophysical Research Letters, 20(23), 2643–2646.
Google Scholar
Small, D., C. Werner, and D. Nüesch (1993). Baseline modelling for ERS-1 SAR interferometry. Proceedings of International Geoscience and Remote Sensing Symposium IGARSS’ 93, Tokyo, Japan, 18–21 August 1993. Institute of Electrical and Electronic Engineers, Piscataway, NJ, pp. 1204–1206.
Google Scholar
Smith, B. D., B. E. Engelhardt, and D. H. Mutz (2002). The Radarsat-MAMM Automated Mission Planner. Artificial Intelligence Magazine, 23(2), 25–36.
Google Scholar
Smith, J. A. (ed.) (2004). InSAR: Interferometric Synthetic Aperture Radar Concept Study Report. NASA Jet Propulsion Laboratory, Pasadena, CA.
Google Scholar
Smith, L. C. (2002). Emerging applications of interferometric synthetic aperture radar (InSAR) in geomorphology and hydrology. Annals of the Association of American Geographers, 92(3), 385–398.
Google Scholar
Solaas, G. A. (1994). ERS-1 Interferometric Baseline Algorithm Verification (Technical Report ES-TN-DPE-OM-GS02, version 1.0. ESA/ESRIN, Noordwijk, The Netherlands. Available online at 〈http://gds.esrin.esa.it:80/CEFB565F/CORBITS〉.
Google Scholar
Soumekh, M. (1999). Synthetic Aperture Radar Signal Processing with MATLAB Algorithms. John Wiley & Sons, New York, 648 pp.
Google Scholar
Spagnolini, U. (1993). 2-D phase unwrapping and phase aliasing. Geophysics, 58(9), 1324–1334.
Google Scholar
Steffen, K., W. Abdalati, and I. Sherjal (1999). Hoar development on the Greenland ice sheet. Journal of Glaciology, 45(148), 63–68.
Google Scholar
Strozzi, T., A. Luckman, and T. Murray (2000). The evolution of a glacier surge observed with the ERS satellites. Proceedings of ERS-Envisat Symposium, Gothenburg, Sweden, October 16–20. ESA, Noordwijk, The Netherlands.
Google Scholar
Strozzi, T., U. Wegmüller, and C. Mätzler (1999). Mapping wet snow covers with SAR interferometry. International Journal of Remote Sensing, 20(12), 2395–2403.
Google Scholar
Strozzi, T., A. Luckman, T. Murray, U. Wegmüller, and C. L. Werner (2002). Glacier motion estimation using SAR offset-tracking procedures. IEEE Transactions on Geoscience and Remote Sensing, 40(11), 2384–2391.
Google Scholar
Sun, G., K. J. Ranson, J. Bufton, and M. Roth (2000). Requirement of ground tie points for InSAR DEM generation. Photogrammetric Engineering and Remote Sensing, 66, 81–85.
Google Scholar
Tarayre, H. and D. Massonnet (1994). Effects of a refractive atmosphere on interferometric processing. Proceedings of International Geoscience and Remote Sensing Symposium IGARSS’ 94, Pasadena, CA. Institute of Electrical and Electronic Engineers, Piscataway, NJ, pp. 717–719.
Google Scholar
Tarayre, H. and D. Massonnet (1996). Atmospheric propagation heterogeneities revealed by ERS-1 interferometry. Geophysical Research Letters, 23(9), 989–992.
Google Scholar
Thiel, K. H., P. Hartl, and X. Wu (1995). Monitoring the ice movements with ERS SAR interferometry in the Antarctic region. Proceedings of 2nd ERS Applications Workshop, London, December (ESA SP-383). ESA, Noordwijk, The Netherlands, pp. 219–223.
Google Scholar
Thiel, K. H., A. Wehr, and X. Wu (1996). Ice sheet and ice shelf movement detection in test area: Antarctic. Proceedings of Workshop on Glaciological Applications of Satellite Radar Interferometry, March 28–29. NASA Jet Propulsion Laboratory, Pasadena, CA.
Google Scholar
Thomas, R. H. (2004). Greenland: Recent mass-balance observations. In: J. L. Bamber and A. J. Payne (eds.), Mass Balance of the Cryosphere. Cambridge University Press, Cambridge, UK, pp. 393–436.
Google Scholar
Thomas, R., E. Rignot, G. Casassa, P. Kanagaratnam, C. Acua, T. Akins, H. Brecher, E. Frederick, P. Gogineni, W. Krabill et al. (2004). Accelerated sea-level rise from West Antarctica. Science, 306(5694), 255–258.
Google Scholar
Tomiyasu, K. (1981). Conceptual performance of a satellite borne, wide swath synthetic aperture radar. IEEE Transactions on Geoscience and Remote Sensing, GE-19(2), 108–116.
Google Scholar
Toutin, T. and L. Gray (2000). State-of-the-art of elevation extraction from satellite SAR data. International Society for Photogrammetry and Remote Sensing Journal of Photogrammetry and Remote Sensing, 55, 13–33.
Google Scholar
Touzi, R., A. Lopes, J. Bruniquel, and P. W. Vachon (1999). Coherence estimation for SAR imagery. IEEE Transactions on Geoscience and Remote Sensing, 37(1), 135–149.
Google Scholar
Turner, J., W. M. Connolley, S. Leonard, G. J. Marshall, and D. G. Vaughan (1999). Spatial and temporal variability of net snow accumulation over the Antarctic from ECMWF re-analysis project data. International Journal of Climatology, 19(7), 697–724.
Google Scholar
Ulaby, F. T., Moore, R. K., and A. K. Fung (1982). Radar Remote Sensing and Surface Scattering and Emission Theory: Vol. 2. Microwave Remote Sensing—Active and Passive. Addison-Wesley, Reading, MA, 1069 pp.
Google Scholar
Ulbricht, A., K. P. Papathanassiou, and S. R. Cloude (1998). Polarimetric analysis of SAR-interferograms in L-and P-band. Proceedings of International Geoscience and Remote Sensing Symposium IGARSS’ 98, Seattle, WA. Institute of Electrical and Electronic Engineers, Piscataway, NJ, Vol. 3, pp. 1647–1649.
Google Scholar
Usai, S. (2001). A new approach for long term monitoring of deformations by differential SAR interferometry. PhD thesis, Delft University of Technology.
Google Scholar
USGS (1993). Digital Elevation Models: Data User’s Guide. U.S. Geological Survey, Reston, VA.
Google Scholar
Vachon, P. W., Gray, A. L., and Geudtner, D. (1995a). ERS-1 SAR repeat-pass interferometry: Temporal coherence and implications for Radarsat. Proceedings of 17th Canadian Symposium on Remote Sensing, Saskatoon, Saskatchewan, Canada, Canadian Remote Sensing Society, Ottawa, pp. 803–898.
Google Scholar
Vachon, P. W., Geudtner, D., Gray, A. L., and Touzi, R. (1995b). ERS-1 synthetic aperture radar repeat-pass interferometry studies: Implications for Radarsat. Canadian Journal of Remote Sensing, 21, 441–454.
Google Scholar
Vachon, P. W., D. Geudtner, K. Mattar, A. L. Gray, M. Brugman, and I. G. Cumming (1996). Differential SAR interferometry measurements of Athabasca and Saskatchewan Glacier flow rate. Canadian Journal of Remote Sensing, 22(3), 287–296.
Google Scholar
Vachon, P. W., A. L. Gray, and K. E. Mattar (1998). Radarsat and ERS repeat-pass interferometry at CCRS. Proceedings of 2nd Workshop on SAR Interferometry, Tsukuba, Japan, 18–20 November 1997, pp. 173–182.
Google Scholar
van Genderen, J. L. and R. Gens (1996). SAR interferometry: Principles and research trends. Proceedings of Geoinformatics’ 96 Symposium, 16–18 October 1996, Wuhan, China. Wuhan Technical University of Surveying and Mapping, Wuhan, China, Vol. 1, pp. 99–106.
Google Scholar
Vaughan, D. G., J. L. Bamber, M. B. Giovinetto, J. Russell, and A. P. R. Cooper (1999). Reassessment of net surface mass balance in Antarctica. Journal of Climate, 12(4), 933–946.
Google Scholar
Vettore, A., S. Ponte, and N. Crocetto (2002). Space-based surface change detection with differential (SAR) interferometry: Potentiality, dimulations and preliminary investigations. Symposium on Geospatial Theory, Processing and Applications: International Society for Photogrammetry and Remote Sensing Commission IV, Ottawa, July 9–12. ISPRS, Istanbul, Turkey.
Google Scholar
Vincent, P. and J. Rundle (1998). Synthetic aperture radar interferometry capability now available to universities. EOS, Transactions of the American Geophysical Union, 79, 34.
Google Scholar
Wegmüller, U. and T. Strozzi (1998). Characterization of different interferometry approaches. Proceedings of EUSAR’ 98, May 25–27, Friedrichshafen, Germany. VDE Verlag, Frankfurt, Germany, pp. 237–240.
Google Scholar
Wegmüller, U., C. L. Werner, T. Strozzi, and A. Wiesmann (2002). Phase Unwrapping with Gamma ISP (technical report). Gamma Remote Sensing AG, Bern, Switzerland. Available online at 〈http://www.gamma-rs.chldocslunwrapping.pdf〉.
Google Scholar
Werner, C, S. Hensley, R. M. Goldstein, P. A. Rosen, and H. A. Zebker (1992). Techniques and applications of SAR interferometry for ERS-1: Topographic mapping, change detection, and slope measurement. 1st ERS-1 Symposium: Space at the Service of Our Environment, Cannes, France, November 4–6 (ESA SP-359). ESA, Noordwijk, The Netherlands, pp. 205–210.
Google Scholar
Werner, C. L., U. Wegmüller, and T. Strozzi (2002). Processing strategies for phase unwrapping for INSAR applications. Proceedings of 4th European Conference on Synthetic Aperture Radar EUSAR 2002, Cologne, Germany, 4–6 June 2002. VDE Verlag, Frankfurt, Germany, Vol. 1, pp. 353–356.
Google Scholar
Wilkinson, A. J. (1997). Techniques for 3-D surface reconstruction using synthetic aperture radar interferometry. Doctoral thesis, University College London, 395 pp.
Google Scholar
Williams, J. (2001). GIS Processing of Geocoded Satellite Data. Springer-Praxis, Chichester, UK, 327 pp.
Google Scholar
Winebrenner, D. P., I. R. Joughin, and M. A. Fahnestock (1997). Interferometric SAR for observation of glacier motion and firn penetration. Proceedings of 3rd ERS Scientific Symposium, March 17–21, Florence, Italy (ESA SP-414). ESA, Frascati, Italy.
Google Scholar
Wu, X. and Thiel K.-H. (1996). The use of tandem data in the Antarctic area. Proceedings of “Fringe’ 96” Workshop on ERS SAR Interferometry, Zurich, Switzerland (ESA SP-406). ESA, Noordwijk, The Netherlands.
Google Scholar
Young, N. W. and G. Hyland (2002). Velocity and strain rates derived from InSAR analysis over the Amery Ice Shelf, East Antarctica. Annals of Glaciology, 34, 228–234.
Google Scholar
Young, N. W., D. Hall, and G. Hyland (1996). Directional anisotropy of C-band backscatter and orientation of surface microrelief in East Antarctica. Proceedings of 1st Australian ERS Symposium, University of Tasmania, Hobart, February 6 (COSSA Publication 037). CSIRO Office of Space Science and Applications, Canberra, pp. 117–126.
Google Scholar
Zandbergen, R., J. M. Dow, F. Martinez Fadrique, M. Romay Merino, and R. Píriz (1997). Progress in ERS Orbit and Tracking Data Analysis (Earthnet Online, ESA). Available online at 〈http:earth1. esrin.esa.it/florence/papers/program-details/data/zandbergen/index.html〉.
Google Scholar
Zebker, H. A. (2000). Studying the Earth with interferometric radar. Computing in Science and Engineering, 2(3), 52–60.
Google Scholar
Zebker, H. A. and R. M. Goldstein (1986). Topographic mapping from interferometric synthetic aperture radar observations. Journal of Geophysical Research, 91(B5), 4993–4999.
Google Scholar
Zebker, H. A., Rosen, P. A., and Hensley, S. (1997). Atmospheric effects in interferometric synthetic aperture radar surface deformation. Journal of Geophysical Research, 102, 7547–7563.
Google Scholar
Zebker, H. A., P. A. Rosen, R. M. Goldstein, A. Gabriel, and C. L. Werner (1994a). On the derivation of coseismic displacement fields using differential radar interferometry: The Landers Earthquake. Journal of Geophysical Research, 99(B10), 19617–19634.
Google Scholar
Zebker, H. A., C. L. Werner, P. A. Rosen, and S. Hensley (1994b). Accuracy of topographic maps derived from ERS-1 interferometric radar. IEEE Transactions on Geoscience and Remote Sensing, 32(4), 823–836.
Google Scholar
Zebker, H. A. and J. Villasenor (1992). Decorrelation in interferometric radar echoes. IEEE Transactions on Geoscience and Remote Sensing, 30(5), 950–959.
Google Scholar
Zebker, H. A. and Y. Lu (1997). Phase unwrapping algorithms for radar interferometry: Residue-cut, least squares, and synthesis algorithms. Journal of the Optical Society of America A, 15(3), 586–598.
Google Scholar
Zhu, S., C. Reigber, and F.-H. Massmann (1996). ERS Standards Used at D-PAF: The German PAF for ERS (Technical Report ERS-D-STD-31101 Rev. B, GFZ/D-PAF). Zentrum der Deutschland für Luft-und Raumfahrt, Oberpfaffenhofen, Germany.
Google Scholar
Zink, M. (2004). The TerraSAR-L interferometric mission objectives. Proceedings of Fringe’ 03 Workshop, December 1–5 (ESA SP-550). ESA/ESRIN, Frascati, Italy.
Google Scholar
Zink, M., G. Krieger, and T. Amiot (2004). Interferometric performance of a cartwheel constellation for TerraSAR-L. Proceedings of Fringe 2003 Workshop, December 1–5 (ESA SP-550). ESA/ESRIN, Frascati, Italy.
Google Scholar
Zwally, H. J., B. Schutz, W. Abdalati, J. Abshire, C. Bentley, A. Brenner, J. Bufton, J. Dezio, D. Hancock, D. Harding et al. (2002). ICESat’s laser measurements of polar ice, atmosphere, ocean and land. Journal of Geodynamics, 34, 405–445
Google Scholar

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(2006). Synthetic aperture radar interferometry and related techniques. In: Polar Remote Sensing. Springer Praxis Books. Springer, Berlin, Heidelberg . https://doi.org/10.1007/3-540-30565-3_2

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