- [Priority Themes] Ecological systems monitoring including agriculture
- [Priority Themes] Monitoring to predict natural disasters and to grasp its damage situations
- [Priority Themes] Civil Infrastructures monitoring
- Sensor Calibration
- Land Use & Land Cover Research
- Geology, Geography
- Disaster and earthquake
- Agriculture
- Snow and Ice
- Vegetation, forestry and wetland
- Hydrology
- Oceanography and coastal zone
- Polar Research
- Polarimetry and interferometry, Ionosphere research
- Resources related research, Education, Others
2018年5月8日現在
No. | Name | Organization | Reseach Title | Country |
---|---|---|---|---|
3071 | David T. Sandwell | University of California San Diego | Moment and Strain Accumulation Rate along the Northern San Andreas Fault System from InSAR and GPS | USA |
3089 | Franz J. Meyer | University of Alaska Fairbanks | Early Warning System Development for Volcanoes in Alaska’s Aleutian Chain Using PALSAR-2 Data | USA |
3091 | Kenji Yoshitake | SHIMIZU Corporation | Application of synthetic aperture radar for total maintenance of the civil infrastructures | JAPAN |
3112 | Franz J. Meyer | University of Alaska Fairbanks | Deformation Monitoring of Landslides and Frozen Debris Flows in Alaska with PALSAR-2 Data | USA |
3117 | Charles Wicks | United States Geological Survey | Utilizing PALSAR-2 Data to Investigate Postseismic Mantle Relaxation following ~M≥7 Earthquakes | USA |
3121 | Ian James Hamling | GNS Science | InSAR Investigation of the World’s Most Rapidly Slipping Low Angle Normal Fault: the Mai’iu Fault in southeastern Papua New Guinea | New Zealand |
3122 | Ian James Hamling | GNS Science | Investigation into the distribution of Slow Slip and locking along the Hikurangi subduction interface, New Zealand | New Zealand |
3129 | Masanobu Shimada | Tokyo Denki University | Monitoring the potential land slide and subsidence areas in Saitama prefecture using the PALSAR/PALSAR-2 time series InSAR analysis | Japan |
3133 | Akira Hirose | The University of Tokyo | Adaptive imaging of high-resolution PolInSAR data based on high-dimensional complex-valued neural networks for natural-hazard and glacier / agricultural information extraction | Japan |
3135 | Abuduwasiti Wulamu | Saint Louis University | Monitoring mine subsidence in Midwestern United States using InSAR and numeric modeling | USA |
3145 | Shinobu Ando | Meteorological Research Institute | Detection of the steady crustal deformation due to plate coupling using InSAR | Japan |
3149 | Yuri Fialko | Scripps Institution of Oceanography, University of California San Diego | Toward 4-D observations of seismic and volcanic deformation | USA |
3152 | Ziyadin CAKIR | Istanbul Technical University | Spatiotemporal characteristics of the surface creep along the East Anatolian Fault deduced from InSAR and GPS | Turkey |
3153 | Graham Alexander Ryan | University of the West Indies | Monitoring volcano-deformation in the Eastern Caribbean combining the existing GPS network and ALOS/ALOS-2 data | Trinidad and Tobago |
3156 | Javier Alejandro Gonzalez Ortega | Ensenada Center for Scientific Research and Higher Education(CICESE) | ALOS-2 geodetic measurements of the subduction zone in Mexico: implications to large earthquakes and seismic hazard | Mexico |
3159 | Wanpeng Feng | Natural Resources Canada | Exploring effects of fault bends on the seismic ropagation from ALOS-1/2 SAR observations | Canada |
3166 | Venera Junisbekova | Kazakh National Research Technical University named after K.I. Satpayev | Applications of radar interferometry to detect surface deformation in urban areas with high seismic risk | Kazakhstan |
3168 | Bridget Smith-Konter | University of Hawaii | Moment and Strain Accumulation Rate along the Southern San Andreas Fault System from InSAR and GPS | USA |
3183 | Daisuke Sango | PASCO CORPORATION | A study of predictive monitoring technique of landslides with ALOS-2 time series InSAR | Japan |
3194 | Zhe Su | Institute of Crustal Dynamics, China Earthquake Administration | Resolving relationship between aseismic slip and earthquake rupture dynamics by PS-InSAR and inversion modeling for the Alborz and Zagros fault zone, Iran | China |
3202 | Glenda Besana-Ostman | Bureau of Reclamation,Department of the Interior | Deformation Monitoring of Landslides with InSAR and CRs | USA |
3209 | Emma M. Hill | Nanyang Technological University | Subsiding deltas, sinking cities and the threat of sea-level rise to megacities in Asia | Singapore |
3213 | Ching-Weei Lin | National Cheng Kung University | Using ALOS-2 SAR interferometry to detect and monitor deep-seated gravitational slope deformations (DSGSD) in Taiwan | Taiwan |
3215 | Chiyuki Narama | Niigata University | Glacier hazard studies in the Asian high mountains | Japan |
3222 | Chaoying Zhao | Chang'an University | Image the characteristics of spatial-temporal evolution and mechanism of land subsidence and ground fissures over Xi’an | China |
3228 | Richard Walters | Durham University | Automatic Detection and Early Warning of Landside Hazard in South Asia using ALOS-2 PALSAR-2 data | UK |
3231 | Guoxiang Liu | Faculty of Geosciences and Environmental Engineering, Southwest Jiaotong University | Monitoring the Large-Scale Landslides along the Longmenshan Faulting System in Sichuan (China) by Developing the PS-DS InSAR Technique Based on ALOS-2/PALSAR-2 Images | China |
3241 | Shuhab Khan | University of Houston | Earthquake Hazards in Western Himalayas | USA |
3254 | Cristiano Tolomei | Istituto Nazionale di Geofisica e Vulcanologia | Use of multitemporal InSAR data to develop geohazard scenarios for Bandung, Western Java, Indonesia | Italy |
3255 | Jyr-Ching HU | National Taiwan University | Validation of active deformation along Taiwan collisional orogenic belt by ALOS-2, Sentinel-1 and continuous GPS measurements | Taiwan |
3262 | Chaoying Zhao | Chang’an University | Large gradient and three dimensional mining-induced deformation monitoring with multiple SAR datasets | China |
3263 | Hiroto NAGAI | Japan Aerospace Exploration Agency | Coherence analysis for mountain hazards using PALSAR-2 data | JAPAN |
3265 | Cathleen E. Jones | Jet Propulsion Laboratory, California Institute of Technology | Oil Spill Response and Characterization with Multi-polarization ALOS-2/PALSAR-2 | USA |
3284 | Fujio Nakano | Kyoto University | Development of a landslide monitoring tool using InSAR data for on-site users | Japan |
3292 | Kuo-Lung WANG | National Chi Nan University | A study combing landslide and debris transport relation base on differential interferometric radar technique | Taiwan, ROC |
3293 | Jonathan R. Weiss | University of Hawaii at Manoa | InSAR-based investigation of earthquake cycle deformation across the Subandean orogenic wedge of southern Bolivia | USA |
3301 | Yoshiya Touge | Tohoku University, School of Engineering | Estimation of Actual Water Management by PALSAR-2 in Aral Sea Basin in Central Asia | Japan |
3320 | Paolo Pasquali | sarmap SA | Monitoring of active volcanoes in Japan with PALSAR-2: from small displacements measurement to modelling and forecast | Switzerland |
3324 | Milan Lazecky | VSB-TU Ostrava | Satellite-borne InSAR Monitoring for Risk Management of Infrastructure Damage Risk due to Landslide Activity | Czech Republic |
3357 | Tung, Sui | South Dakota School of Mines & Technology (SDSMT), USA | Validating interpretations of ALOS-2 data for the 2015 M8.3 Chile earthquake: Calibration of co-seismic and post-seismic deformation and assessment of transient seismic hazard | USA |
3365 | Hector Mora-Paez | Colombian Geological Survey | Combination of InSAR and GPS techniques for the study of land subsidence and Mud-diapirism phenomena in Colombia, South America | Colombia |
3370 | Enrique Cabral-Cano | Universidad Nacional Autonoma de Mexico | Anthropogenically induced subsidence and its relationship to groundwater extraction, surface faulting and aquifer vulnerability in Northwestern Mexico | Mexico |
3371 | Akhmad Solikhin | Geological Agency | Study of deformation, topographic changes and eruptive deposits of persistently active volcanoes in Indonesia based on L-band Synthetic Aperture Radar imagery: an insight into eruption processes and hazard assessment | Indonesia |
3389 | Arjun Aryal | University of Hawaii at Manoa | An ALOS-2 Based Assessment of Hawaii’s Resilience to Climate Change | USA |
3401 | Semih Ergintav | Bogazici University, Kandilli Observatory and Earthquake Research Inst. | Monitoring of Earthquake Cycle under the constrain of Space Geodesy (GPS, InSAR) | Turkey |
3402 | Tumen Chymitdorzhiev | Institute of Physical Material Science of the Siberian Branch of the RAS (IPMS SB RAS) | Crustal and cryogenic deformation monitoring in Siberia (Baikal rift, Kuznetsk coal basin) and Siberian Arctic (Yakutia, Yamal) with PALSAR-2 and TanDEM-X interferometry. | Russia |
3405 | Sanjay Kumar Prajapati | National Center for Seismology, ministry of earth sciences | Understanding deformation through earthquake cycle in the Himalayan Arc | India |
3406 | Masanobu Shimada | Tokyo Denki University | Application of the PALSAR-2 Along Track Interferometry to the water coverage estimation | Japan |