| Day 1, Monday 26 November 2007 |
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| 08:30-09:00 | Registration and Poster Mounting | |
| 09:00-09:10 | Official ESA Welcome | ESA |
| 09:10-09:20 | Workshop Objectives and Organization | M.Engdahl (ESA) |
| Opening Session: Presentations by ESA | Chair: Y.-L. Desnos/M. Engdahl |
|---|
| 09:20-09:45 | ERS and Envisat Mission Status | Henri Laur (ESA)
and Wolfgang Lengert (ESA) |
| 09:45-10:10 | ERS-2 and ENVISAT orbit control: current and future strategy - the impact on the interferometric baselines | Berthyl Duesmann (ESA) |
| 10:10-10:35 | ERS and ENVISAT SAR instruments operations and products quality update | Betlem Rosich (ESA)
and Nuno Miranda (ESA) |
| 10:35-11:00 | ALOS PALSAR Cal/Val Activities | Peter Meadows (BAE Systems) |
| 11:00-11:25 | The ALOS mission/status of the ALOS Data European Node | Bianca Hoersch (ESA) |
| Opening Session: Presentations by ESA - continuation | Chair: Y.-L. Desnos/M. Engdahl |
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| 11:00-11:20 | European Strategy for Long-term EO data preservation and access | Mirko Albani (EO Ground Segment Department, ESA/ESRIN) |
| 11:20-11:40 | Coffee Break | |
| Methodology and Techniques: General | Chair: D. Perissin/M. Costantini
sec. M. Lavalle |
|---|
| 11:40-12:00 | ERS-2 Zero-Gyro-Mode Data Application Showcases | Urs Wegmuller (Gamma Remote Sensing AG)
presented by Tazio Strozzi |
| 12:00-12:20 | Analysis of Urban Areas Scattering with Simulated SAR imagery | Gerard Margarit (Universitat Politecnica de Catalunya) |
| 12:20-12:40 | An Efficient Method for Improving Coherence of Multi Aperture Interferogram (MAI) | Hyung-Sup Jung (Yonsei University) |
| 12:40-13:00 | Multidimensional SAR Imaging: Studies in the Framework of LIMES Project | Mario Costantini (Telespazio S.p.A.) |
| 13:00-13:20 | Potentials of Volumetric Differential Interferometry and Robust Tomography | Fabrizio Lombardini (University of Pisa) |
| 13:20-13:40 | Recent Advances in Pol-InSAR Forest Parameter Estimation: Results, and Conclusions from actual Experimental Campaigns and Studies | K. P. Papathanassiou (German Aerospace Centre (DLR)) |
| 13:40-14:00 | General Methodology and Techniques: Round Table | |
| 14:00-15:00 | Lunch | |
| Methodology and Techniques: DInSAR and PSI | Chair: R. Hanssen/J. Mallorqui
sec. M. Lavalle |
|---|
| 15:00-15:20 | Coherent vs. Persistent Scatterers: A case study. | Luca Marotti (German Aerospace Center (DLR)) |
| 15:20-15:40 | Repeat-pass SAR interferometry with partially coherent targets | Daniele Perissin (Politecnico di Milano) |
| 15:40-16:00 | A 2+1D phase unwrapping for Advanced DInSAR data processing | Michele Crosetto (Institute of Geomatics) |
| 16:00-16:20 | A Combined Multi-Temporal InSAR Method Incorporating Persistent Scatterer and Small Baseline Approaches | Andrew Hooper (University of Iceland) |
| 16:20-16:40 | Coffee Break | |
| Methodology and Techniques: DInSAR and PSI - continuation | Chair: R. Hanssen/J. Mallorqui
sec. M. Lavalle |
|---|
| 16:40-17:00 | Optimal data generation for Multiple Images DInSAR techniques: Minimum Cost Flow interferograms and Region Growing pixel selection. | Pablo Blanco-Sanchez (Universitat Politecnica de Catalunya) |
| 17:00-17:20 | Enhancements for High Resolution SAR Persistent Scatterer Interferometry | Stefan Gernhardt (TU Muenchen) |
| 17:20-17:40 | Methodology and Techniques: DInSAR and PSI Round Table | |
| 17:40-18:40 | Welcome Drink | |
|
| Day 2, Tuesday 27 November 2007 |
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| Applications: Earthquakes and tectonics | Chair: C. Lasserre/S. Jonsson
sec. S. Pinnock |
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| 09:00-09:20 | Probing the uppermost mantle rheology using surface deformation associated with the Lake Mead load fluctuations | Marie-Pierre Doin (Ecole Normale Supérieure) |
| 09:20-09:40 | Ground deformation associated with a seismic swarm near Aysen, southern Chile, measured by ALOS/PALSAR interferometry | Yo Fukushima (Kyoto University) |
| 09:40-10:00 | Slip rates and rheology of the southern San Andreas-San Jacinto fault system from earthquake cycle models constrained by GPS and InSAR observations | Paul Lundgren (California Institute of Technology) |
| 10:00-10:20 | Monitoring crustal deformation along the Xianshuihe fault in the eastern Tibetan margin area with ENVISAT ScanSAR interferometry | Liming JIANG (Institute of Space and Earth Information Science) |
| 10:20-10:40 | Plate-boundary Deformation in Southwest Iceland from InSAR Time-Series Analysis | Sigurjon Jonsson (ETH Zurich) |
| 10:40-11:00 | InSAR time series analysis with water vapour correction model for mapping postseismic deformation after the 2003 Bam, Iran Earthquake | Zhenhong Li (University College London) |
| 11:00-11:20 | Coffee Break | |
| Applications: Earthquakes and tectonics - continuation | Chair: C. Lasserre/S. Jonsson
sec. S. Pinnock |
|---|
| 11:20-11:40 | Pre- Co- and Post-dyking Deformation in the Dabbahu Rift Segment
(Afar, Ethiopia) Observed with InSAR | Tim Wright (University of Leeds) |
| 11:40-12:00 | Water Vapour Bias in Measuring Interseismic Strain Accumulation
with InSAR for the Altyn Tagh Fault, N. Tibet | John Elliott (University of Oxford) |
| 12:00-12:20 | Measurement of Interseismic Strain Accumulation and Post-seismic Relaxation along the Kunlun Fault by Radar Interferometry | Jianbao Sun (Graduate University of Chinese Academy of Sciences) |
| 12:20-12:40 | Improvement of fault model estimations by using multiple datasets and full data covariances: An application to the Kleifarvatn earthquake, Iceland. | Henriette Sudhaus (ETH Zurich) |
| 12:40-13:00 | From Ecuador to Patagonia: Andean deformation from InSAR 1992-2007 | Matthew Pritchard (Cornell University) |
| 13:00-13:20 | InSAR time series of the Asal Rift, Afar: Troposphere phase delay and ground movement signal | Gilles Peltzer (University of California Los Angeles) |
| 13:20-13:40 | New InSAR results from North America from the WInSAR Consortium | Matthew Pritchard (Cornell University) |
| 13:45-15:00 | Lunch | |
| Applications: Earthquakes and tectonics | Chair: G. Peltzer/J. Sun
sec. P.-P. Mathieu |
|---|
| Applications: Earthquakes and tectonics - continuation | Chair: C. Lasserre/S. Jonsson
sec. S. Pinnock |
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| 15:00-15:20 | Large-scale deformation of Tibet measured with Envisat ScanSAR interferometry | Eric Fielding (Jet Propulsion Lab, Caltech) |
| 15:20-15:40 | Measurement of Interseismic Strain Accumulation Across the Haiyuan Fault by Radar Interferometry | Olivier Cavalie (ENS) |
| 15:40-16:00 | Shallow locking depth in the Eastern California Shear Zone, significance for low angle normal faulting. | Noel Gourmelen (University of Miami) |
| 16:00-16:20 | Creep on the Rodgers Creek fault, northern California, revealed by PS-InSAR | Gareth Funning (University of California, Riverside) |
| 16:20-16:40 | Earthquakes and tectonics Round Table | |
| 16:40 | Coffee Break with Refreshments (in poster session) | |
| Poster session, part 1 | |
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| Poster session - continuation | |
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| Rupture parameters of the 21 May 2003, Mw 6.8, Zemmouri (Northern Algeria) earthquake deduced from InSAR | Samir Belabbes (IPG Strasbourg) |
| Coseismic deformation and 3-D surface displacement field of 2006 Fin earthquake, south of Iran, using InSAR | Mahasa Roustaei (IIEES ) |
| Coseismic and Postseismic Displacements From the Mozambique Earthquake of 22 February 2006 Detected by InSAR | Manabu Hashimoto (Kyoto University) |
| Mapping ground velocity in Italian seismogenic areas by InSAR techniques: the VELISAR initiative. | Stefano Salvi (Istituto Nazionale di Geofisica e Vulcanologia) |
| InSAR monitoring of Faial and Pico islands (Azores), first results. | Joana Martins (University of Lisbon, IDL, LATTEX) |
| Monitoring the Campi Flegrei caldera by exploiting SAR and geodetical data: recent results and future applications | Paolo Berardino (IREA - CNR) |
| First multi sensors InSAR monitoring of an eruptive crisis: the April 2007 eruption at Piton de la Fournaise from ASAR and ALOS-PALSAR data. | Jean-Luc Froger (Observatoire de Physique du Globe de Clermont) |
| InSAR Study of earthquakes of the Southern Tibet | S.P. Satyabala (National Geophysical Research Institute) |
| Creep or Seismicity in the Salt Range of Pakistan? | S.P. Satyabala (National Geophysical Research Institute) |
| Integrated satellite, GPS and geophysical data for seismic hazard assessment in Vrancea area, Romania | Maria Zoran (National Institute of RD for Optoelectronics) |
| Inversion of InSAR data via Genetic Algorithm and Simulated Annealing methods: first results from the Campi-Flegrei volcanic region | Manoochehr Shirzaei (GeoForschungsZentrum (GFZ)) |
| Continued dyking in the Dabbuhu Rift segment, Afar, Ethiopia, from radar interferometry | Ian Hamling (Institute of Geophysics and Tectonics) |
| Evolution of Post-Seismic Ground Deformation Observed by SAR Interferometry | Michael Foumelis (University of Athens) |
| Dangxiong Fault Activity Monitoring by PS InSAR Technique | Jingfa Zhang (Institute of Crustal Dynamics, CEA) |
| InSAR Data and Neural Networks applied to Seismic Source Quantitative Parameters Retrieval | Salvatore Stramondo (Istituto Nazionale di Geofisica e Vulcanologia) |
| Precise source modeling of the 2005 Qeshm Island earthquake (Iran) using a joint inversion of surface deformation and aftershock data | Manoochehr Shirzaei (GeoForschungsZentrum (GFZ)) |
| Accurate re-estimation of the Ms=6.2, June 15, 1995, Aigion (Greece) earthquake fault modeling | Panagiotis Elias (National Observatory of Athens) |
| Effects of baselines on InSAR coherence: applications to earthquake damage detection | Marco Chini (Univ. “Alma Mater Studiorum” of Bologna) |
| Comparison of Models of InSAR/PolInSAR Coherence for Forest Height Retrieval Using PolInSAR Simulated Data | Marco Lavalle (DISP, Tor Vergata University of Rome) |
| SAR Tomography over Decorrelating Targets for Forestry Applications | Stefano Tebaldini (Politecnico di Milano) |
| Models of plant motion based on observations | Stephen Hobbs (Cranfield University) |
| SAR interferometry from geo-synchronous orbit | Stephen Hobbs (Cranfield University) |
| Experiments of radio-wave velocity tomography for DInSAR applications at Mt. Etna using GPS data | Giuseppe Puglisi (Istituto Nazionale di Geofisica e Vulcanologia) |
| Promoting the use of Radar data within the UK academic community | Kamie Kitmitto (University of Manchester) |
| Extraction and Analysis of Coherent Targets Using Quad-Pol ALOS-PALSAR L-band Data | Changcheng Wang (Wuhan University) |
| Detection of Artificial Corner Reflector on SAR Images | Lixia Gong (Institute of Crustal Dynamics, CEA) |
| Improved image alignment under the influence of elevation | Mahmut Arikan (Delft University of Technology) |
| Numerical error analysis of CSL georeferencing process implementation | Dominique Derauw (Centre Spatial de Liège) |
| How Accurately can we Geolocate a Persistent Scatterer? | Andrew Sowter (University of Nottingham) |
| A Simple Robust Two-Scale Phase Component Inversion Scheme for PSInSAR | Bernhard Rabus (MDA) |
| Coherence Decomposition Analysis | Teng Wang (Wuhan University) |
|
| Day 3, Wednesday 28 November 2007 |
|---|
| Parallel Session: Applications: Volcanoes (Bldg. 14) | Chair: P. Lundgren/G. Puglisi
sec. M. Lavalle |
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| 09:00-09:20 | Continuous InSAR Monitoring of Piton de la Fournaise Volcano (La Reunion Island): Four Years of Magmatic Transfers Revealed. | Pierre Tinard (Lab. Magmas et Volcans) |
| 09:20-09:40 | The Lake Natron (Tanzania) July 2007 rifting event revealed by InSAR | Nicolas d'Oreye (National Mus. of Nat. History) |
| 09:40-10:00 | Study of the deformation field of two active Mexican stratovolcanoes (Popocatepetl and Colima Volcano) by time series of InSAR data. | Virginie Pinel (IRD) |
| 10:00-10:20 | Modeling of InSAR displacements related with the January 2002 eruption of Nyiragongo volcano (DRC) | Christelle Wauthier (Royal Museum for Central Africa) |
| 10:20-10:40 | Diverse deformation patterns of Aleutian volcanoes from interferometric synthetic aperture radar (InSAR) | Zhong Lu (US Geological Survey) |
| 10:40-11:00 | Deformation at Taupo volcano, New Zealand, measured by InSAR, lake levelling and GPS | Jessica K. Hole (Environmental Systems Science Centre) |
| 11:00-11:20 | Coffee Break | |
| Parallel Session: Applications: Volcanoes (Bldg. 14) - continuation | Chair: P. Lundgren/G. Puglisi
sec. M. Lavalle |
|---|
| 11:20-11:40 | Fifteen years of ERS and ENVISAT DInSAR observations at Mt. Etna, Italy, by using the SBAS approach | Francesco Casu (IREA-CNR) |
| 11:40-12:00 | High incidence angles of ASAR data reveal new insights for studying the 2004-2005 Mt. Etna eruption | Giuseppe Puglisi (Istituto Nazionale di Geofisica e Vulcanologia) |
| 12:00-12:20 | 2006 Mt. Etna eruption imaged by ERS2 and ENVISAT data | Francesco Guglielmino (Istituto Nazionale di Geofisica e Vulcanologia) |
| 12:20-12:40 | Deformation and Stress-Change Modeling at Sierra Negra Volcano, Galapagos, from Envisat InSAR and GPS Observations | Sigurjon Jonsson (ETH Zurich) |
| 12:40-13:00 | Volcano Session Round Table | |
| Parallel Session: Applications: Terrain subsidence and landslides (Bldg. 14) | Chair: P. Pasquali/T. Strozzi
B. Kötz |
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| 13:00-13:20 | Evolution of a deep-seated rock mass movement observed with satellite SAR interferometry | Tazio Strozzi (Gamma Remote Sensing) |
| 13:20-13:40 | Deformation of the margin of Sudety Mountains (Southern Poland) studied by Persistent Scatterers Interferometry | Zbigniew Perski (University of Silesia) |
| 13:45-15:00 | Lunch | |
| Parallel Session: Applications: Terrain subsidence and landslides (Bldg. 14) - continuation | Chair: P. Pasquali/T. Strozzi
B. Kötz |
|---|
| 15:00-15:20 | First results of PS-InSAR analysis of crustal deformation and landslides in Galilee (Israel) and presentation of the Joint German-Israeli Research Program to improve assessments of the seismic hazard generated by the Dead Sea Transform Fault | Christian Minet (DLR) |
| 15:20-15:40 | Utilisation of InSAR for Subsidence Monitoring over the Caving Zone of Underground Metalliferous Mine | Andrew Jarosz (Curtin University of Technology) |
| 15:40-16:00 | Contrasting ground movements revealed by radar interferometry over abandoned coal mines (Campine, Belgium) | Xavier Devleeschouwer (Royal Belgian Institute of Natural Sciences) |
| 16:00-16:20 | Detection and characterisation of the topographic surface displacements using DINSAR and PS interferometry applied to the Nord/Pas-de-Calais coal basin. | Yann Gueguen (UMLV - INERIS) |
| 16:20-16:40 | Coffee Break | |
| Parallel Session: Applications: Terrain subsidence and landslides (Bldg. 14) - continuation | Chair: P. Pasquali/T. Strozzi
B. Kötz |
|---|
| 16:40-17:00 | Ground water management and its consequences in Delft, the Netherlands as observed by Persistent Scatterer Interferometry | Freek J. van Leijen (Delft University of Technology) |
| 17:00-17:20 | Current subsidence due to peat drainage in the Netherlands, kinematic observations from radar interferometry | Miguel Caro Cuenca (Delft University of Technology) |
| 17:20-17:40 | Regional scale landslide mapping in Northern Norway using SBAS InSAR | Tom R. Lauknes (Norut) |
| 17:40-18:00 | Terrain Subsidence and Landslides Round Table | |
| Parallel Session: Applications: PSI (Persistent Scatterer Interferometry) Validation (Magellan Room) | Chair: P. Bally/M. Crosetto
sec. A. Minchella |
|---|
| 9:00-9:20 | PSIC-4: Validation and Intercomparison of Persistent Scatterers Interferometry. Main results. | Daniel Raucoules (BRGM) |
| 9:20-9:40 | Lessons learned from PSIC4: improving PS-InSAR results for a constrained test site. | Sami Samiei Esfahany (Delft University of Technology) |
| 9:40-10:00 | Terrafirma Validation Experiment - the Alkmaar/Amsterdam Case | Sterre Dortland (TNO – Built Environment and Geoscience) |
| 10:00-10:20 | Persistent Scatterer Processing Validation in the Course of the Terrafirma Project | Nico Adam (DLR Oberpfaffenhofen) |
| 10:20-10:40 | Inter-comparison of persistent scatterer interferometry results | Michele Crosetto (Institute of Geomatics) |
| 10:40-11:00 | InSAR quality control: analysis of five years of corner reflector time series | Petar Marinkovic (Delft University of Technology) |
| 11:00-11:20 | Coffee Break | |
| Parallel Session: Applications: PSI (Persistent Scatterer Interferometry) Validation (Magellan Room) - continuation | Chair: P. Bally/M. Crosetto
sec. A. Minchella |
|---|
| 11:20-11:40 | Establishing a Corner Reflector Network for PSI | Jon Leighton (University of Nottingham) |
| 11:40-12:00 | Persistent Scatterer InSAR using Artificial Point Targets – First Analysis of Amplitude and Phase Stability | Franz Meyer (Geophysical Institute) |
| 12:00-12:20 | PSI Validation Session Round Table | |
| Parallel Session: Methodology and Techniques: Atmosphere (Magellan Room) | Chair: R. Hanssen/F. Rocca
sec. O.Gråbak |
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| 12:20-12:40 | New insights into the nature and effects of the water vapour field on InSAR measurements over Etna | Rachel Holley (University of Reading) |
| 12:40-13:00 | Covariance Estimation, Geostatistical Prediction and Simulation for InSAR Observations in Presence of Strong Atmospheric Anisotropy | Steffen Knospe (ETH Zurich) |
| 13:00-13:20 | Comparison between SAR atmospheric phase screens at 30' by means of ERS and ENVISAT data | Daniele Perissin (Politecnico di Milano) |
| 13:20-13:40 | Ionospheric Effects on SAR, InSAR, and SAR Polarimetry – Theory and Experiences with ALOS/PALSAR | Franz Meyer (Geophysical Institute) |
| 13:40-14:00 | Methodology and Techniques: Atmosphere Round Table | |
| 14:00-15:00 | Lunch | |
| 19:30-21:30 | Non-hosted Dinner | |
|
| Day 4, Thursday 29 November 2007 |
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| Interferometry and new SAR missions: ALOS-PALSAR, TerraSAR-X, Radarsat-2, Cosmo Skymed | Chair: I. Hajnsek/E. Attema
sec. M. Thomas |
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| 09:00-09:20 | European Radar Observatory Sentinel-1 | Evert Attema (ESA) |
| 09:20-09:40 | COSMO-SkyMed Mission status | Alessandro Coletta (Italian Space Agency)
presented by Ettore Lopinto |
| 09:40-10:00 | First TerraSAR-X Interferometry Evaluation | Michael Eineder (DLR) |
| 10:00-10:20 | The TanDEM-X Mission | Manfred Zink (DLR) |
| 10:20-10:40 | Interferometric and Polarimetric Interferometric experiments with ALOS PALSAR data | Paolo Pasquali (sarmap s.a.) |
| 10:40-11:00 | First TOPSAR interferometry results with TerraSAR-X | Adriano Meta (DLR) |
| 11:00-11:20 | Coffee Break | |
| Interferometry and new SAR missions: ALOS-PALSAR, TerraSAR-X, Radarsat-2, Cosmo Skymed - continuation | Chair: I. Hajnsek/E. Attema
sec. M. Thomas |
|---|
| 11:20-11:40 | TerraSAR-X: Exploration of Multitemporal PolSAR and Pol-InSAR Data | Irena Hajnsek (German Aerospace Center (DLR)) |
| 11:40-12:00 | Interferometry and New SAR Missions Round Table | |
| Airborne and ground-based InSAR | Chair: J. Mallorqui/A. Monti-Guarnieri
sec. M. Cruz |
|---|
| 12:00-12:20 | The X-band RAMSES multi-pass interferometry campaign | Sebastien Angelliaume (ONERA) |
| 12:20-12:40 | Monitoring of Belvedere Glacier using a wide angle GBSAR interferometer | Linhsia Noferini (Università di Firenze) |
| 12:40-13:00 | Subsidences estimation from ground based SAR: techniques and experimental results | Andrea Monti Guarnieri (Politecnico) |
| 13:00-13:20 | Bistatic Interferometric toolkit for campaign evaluation and DEM generation | Sergi Duque (UPC) |
| 13:20-13:40 | Ground-based and Airborne InSAR Round Table | |
| 13:45-15:00 | Lunch | |
| Applications: Other | Chair: P. Pasquali/F.-M. Seifert
sec.M.Paganini |
|---|
| 15:00-15:20 | The application of multi-temporal, multiple-satellite, C- and L-band SAR data for the analysis of backscattering variations, InSAR-derived water-level changes over swamp forests, and subsidence over Southeastern Louisiana | Ohig Kwoun (SAIC)
presented by Zhong Lu (US Geological Survey) |
| 15:20-15:40 | Detection and monitoring of sand dune mobility in southeast Niger using multi-temporal coherence images | Catherine Bodart (University of Liege) |
| 15:40-16:00 | Ice motion mapping in Antarctica with Envisat ASAR and ALOS PALSAR | Eric Rignot (JPL / UC Irvine) |
| 16:00-16:20 | Feasibility of snow water equivalent retrieval by means of ground-based and spaceborne SAR interferometry | Thomas Nagler (ENVEO) |
| 16:20-16:30 | Applications: Other Round Table | |
| 16:30 | Coffee Break with Refreshments (in poster session) | |
| Poster session, part 2 | |
|---|
| Poster session - continuation | |
|---|
| Shallow vs. Deep Sliding on Kilauea's south flank from InSAR Persistent Scatterers | Ingrid Johanson (U.S. Geological Survey) |
| InSAR observations of deformation associated with new episodes of volcanism at Kilauea volcano, Hawai`i, 2007 | Michael Poland (US Geological Survey) |
| InSAR displacements associated to the November 2006 eruption of Nyamulagira | Valerie Cayol (Univ. B. Pascal, CNRS UMR 6524, OPGC) |
| An Investigation on Atmospheric Effects in Airborne Interferometric SAR data | Andreas Danklmayer (DLR, e.V. German Aerospace Center) |
| Water vapor removal of ASAR-derived InSAR products using MERIS data and GPS | Sina Adham Khiabani (K.N.T.University of Tech.) |
| Comprehensive study of gravity waves’ influences on InSAR product and approach to remove the effect | Sina Adham Khiabani (K.N.T.University of Tech.) |
| Effect of atmosphere in InSAR over Kuwait Desert | Hala K Al Jassar (Kuwait University) |
| Combining GPS and meteorological data to mitigate atmospheric phase in interferograms: the San Gabriel Valley, California | Gareth Funning (University of California, Riverside) |
| Subsidence in the Avcilar district of Istanbul, Turkey measured by satellite radar interferometry 1992 – 1999 | Samuray Akarvardar (Observatoire Midi-Pyrenees) |
| Monitoring subsidence with short-term InSAR image stack | Mingsheng Liao (Wuhan University) |
| Retrieval of Ground Subsidence by Integrating GPS Observations and Persistent Scatterers INSAR and Using a Small Number of ASAR Images | Qiang Chen (The Hong Kong Polytechnic University) |
| Surface Deformations in Southern-Italy Areas of Campania Region by ERS-SAR Observations | Paola Ballatore (MARSec) |
| Measurement of land subsidence in the Kashmar Valley, northeast Iran, using satellite radar interferometry. | Jan Anderssohn (GeoForschungsZentrum Potsdam) |
| Satellite interferometry reveals spatial patterns of subsidence in the ancient Wieliczka Salt Mine (UNESCO Heritage Site, Poland) | Janusz Wasowski (CNR-IRPI, Bari) |
| Continuous Risk Assessment of Structures in Areas of Ground Deformation Susceptibility by Persistent Scatterers InSAR: Preliminary Results of the Rio-Antirio Bridge (Greece) case | Issaak Parcharidis (Harokopio University of Athens) |
| Application of the Differential interferometric technique (DInSAR) to unrevel the present-day vertical movement in the Glueckstadt Graben, Germany. | Bruno Crippa (University of Milan) |
| Measurement of surface subsidence hazard in Iran from satellite radar interferometry | Mahdi Motagh (GeoForschungsZentrum (GFZ)) |
| Mexico City subsidence: Spatio-temporal analysis using interferometry | Lopez-Quiroz Penelope (Ecole Normale Superieure) |
| An application of InSAR technique to monitor the subsidence induced by the excess groundwater withdrawal | Mani Hosseini (K.N.Toosi University of Technology) |
| Monitoring and identifying small scale deformation sources in the area of Athens (Greece) | Panagiotis Elias (National Observatory of Athens) |
| Mapping Mexico city subsidence by SAR correlation techniques : effect of SAR image resolution enhancement | Stephane Guillaso (Ecole Normale Supérieure) |
| Measurement of long-term deformation by InSAR using ALOS/PALSAR data | Tomonori Deguchi (ERSDAC) |
| Time series analysis of Mexico City surface deformation | Batuhan Osmanoglu (University of Miami - RSMAS) |
| Neyshabour Subsidence Monitoring using Interferometric SAR Technique | Maryam Dehghani (K. N. Toosi University of Technology) |
| Glacier Hydraulics Explored by Means of SAR Interferometry | Eyjólfur Magnússon (University of Innsbruck) |
| Rockslide hazards in Storfjorden, Western Norway - Application of InSAR and other site investigations | Tom R. Lauknes (Norut) |
| Measurements of ground subsidence in Mokpo using PSInSAR and SBAS | Sang-Wan Kim (Sejong University) |
| Monitoring deformation of the pre-landslide in Three Gorges area, China | Qiming Zeng (Peking University) |
| Landslide-like developement of rockglaciers detected with ERS-1/2 SAR interferometry | Reynald Delaloye (University of Fribourg) |
| Ipta Analysis and Geothecnical Investigation: Anomalous Subsidence in the city of Rome | Salvatore Stramondo (Istituto Nazionale di Geofisica e Vulcanologia) |
| Ground Subsidence Measurements of Reclaimed Land using Radar Interferometry | Chang-Wook Lee (Yonsei Univ.) |
| SBAS-DInSAR Surface Deformation Analysis of the Mendoza Region (argentina) by Using ENVISAT ASAR Data | Leonardo D. Euillades (Instituto CEDIAC) |
| Formation Flying Mission Design: Maintenance and Reconfiguration Strategies | Giacomo Taini (Thales Alenia Space) |
| TerraSAR-X Capabilities for Commercial INSAR Applications | Fifame Koudogbo (Infoterra GmbH) |
| An X-Band Airborne DInSAR Experiment With the OrbiSAR System | Stefano Perna (Università degli Studi di Napoli) |
| Sub-pixel mapping urban impervious surface using ERS-1/2 InSAR data: a case study in Shanghai city | Liming Jiang (Institute of Space and Earth Information Science) |
| Changes in land and sea levels along the Thames Estuary and River Thames, UK | R. J. Burren (NPA Group) |
| Observations of phase changes coincident with geomorphic features | Andrew Ford (Bournemouth University) |
|
| Day 5, Friday 30 November 2007 |
|---|
| Summary sessions | |
|---|
| 09:00-09:10 | Summary: General Methodology and Techniques | (-) |
| 09:10-09:20 | Summary: Methodology and Techniques: PSI (Persistent Scatterer Interferometry) | (-) |
| 09:20-09:30 | Summary: Methodology and Techniques: Atmosphere | (-) |
| 09:30-09:40 | Summary: Applications: Earthquakes and tectonics | (-) |
| 09:40-09:50 | Summary: Applications: Volcanoes | (-) |
| 09:50-10:00 | Summary: Applications: Terrain subsidence and landslides | (-) |
| 10:00-10:10 | Summary: Applications: Other | (-) |
| 10:10-10:20 | Summary: Applications - PSI (Persistent Scatterer Interferometry) Validation | (-) |
| 10:20-10:30 | Summary: Airborne campaigns | (-) |
| 10:30-10:40 | Summary: Interferometry and new SAR missions: Future missions | (-) |
| 10:40-10:50 | Summary: Interferometry and new SAR missions - ALOS-PALSAR, TerraSAR-X, Radarsat-2, Cosmo Skymed | (-) |
| 10:50-11:20 | Coffee Break | |
| 11:20-11:40 | WS Closing Remarks (ESA) | |
