3 |
Hasanuddin Z. Abidin |
Institute of Technology Bandung |
Studying the deformation of Indonesian volcanoes by GPS and INSAR Techniques |
Indonesia |
19 |
Masataka TAKAGI |
Kochi Univ. of Technology |
Wide Area Monitoring for Land Disaster Detection |
Japan |
47 |
Howard A. Zebker |
Stanford University |
InSAR studies of slow crustal deformation |
U.S.A |
57 |
Zhong Lu |
U.S. Geological Survey, EROS Data Center |
Studying deformation of volcanoes in the Aleutian Islands and the Kamchatka Peninsula using L-band ALOS PALSAR interferometry |
U.S.A |
59 |
Charles W. Wicks |
U. S. Geological Survey |
An L-Band Study of Cascade Range Volcanoes, Globally Persistent Active Volcanoes, and Areas of Active Deformation in the Western USA |
U.S.A |
63 |
Tran Dinh Lan |
Institute of Marine Environment and Resources (IMER) |
Monitoring Flood in the Vietnam Center Using ALOS Satellite Data |
Vietnam |
66 |
Wang Zhihua |
China Aero Geophysical Survey & Remote Sensing Center for Land and Rewources(AGRS) |
Verifying ALOS for accurate landslide activists survey and monitoring |
China |
69 |
Roland Burgmann |
University of California, Berkeley |
ALOS Measurements for Investigation of Active Deformation and Topography along the San Andreas fault, California |
U.S.A |
81 |
Magaly Koch |
Boston University |
Applications of ALOS in Arid Land Studies: Land Degradation, Natural Hazards and Water Resources |
U.S.A |
92 |
Kurt Feigl |
Centre National de Recherche Scientifique (CNRS) |
SAR interferometric measurement of crustal deformation on North Anatolian fault system, Turkey |
France |
94 |
Urs Wegmuller |
Gamma Remote Sensing |
Monitoring of mining induced surface deformation |
Switzerland |
97 |
Gilles Peltzer |
Jet Propulsion Laboratory |
Measurement of 3-component interseismic strain along active faults using SAR interferometry, application to California, Tibet, and Afar |
U.S.A |
108 |
Luciano Vieira Dutra |
National Institute for Space Research (INPE) |
Evaluation of Polarimetric and INSAR L-band data for Floodplain and Land Use/Cover monitoring, and for biomass estimation in selected Amazonian test sites. |
Brazil |
112 |
Benoit Deffontaines |
University of Marne-la-Vallee |
NATURAL HAZARD MITIGATION IN TAIWAN FROM REMOTE SENSING (Active faults, land slide and Volcanic monitoring) |
France |
114 |
David T. Sandwell |
University of California, San Diego, Scripps Insti. of Oceanography |
Western North America Crustal Dynamics Research: WInSAR Consortium |
U.S.A |
127 |
Paul Rosen |
Jet Propulsion Laboratory |
Pacific Rim Deformation by PALSAR Repeat Orbit Interferometry |
U.S.A |
134 |
Chinatsu YONEZAWA |
Tohoku University |
Interferometric analysis of ALOS/PALSAR data for crustal deformation detection and land subsidence monitoring |
Japan |
136 |
Eric Fielding |
Jet Propulsion Laboratory |
Tectonics and erosion of the Tibetan and Altiplano-Puna plateaus from ALOS PALSAR interferometry and high-resolution digital topography |
U.S.A |
139 |
Wooil M. Moon |
Seoul National University |
Research and Application Development For Polarimetric SAR Technique For Volcanic Feature investigation and Volcanic Hazard Monitoring |
Republic of Korea |
148 |
Shigeki KOBAYASHI |
Tokai University |
Monitoring of volcanically and seismically active regions and investigation of magma transfer process using SAR interferometry, GPS and gravity observations |
Japan |
156 |
Robert J. Mellors |
San Diego State University |
Investigation of crustal motion and slope failure in the North Tien Shan using INSAR |
U.S.A |
194 |
Masanobu SHIMADA |
Japan Aerospace Exploration Agency |
Extraction of water vapor and surface deformation using a differential PALSAR interferometry |
Japan |