研究公募
ra4_mem_cal
Sensor Calibration
2017年5月30日現在
No. | Name | Organization | Reseach Title | Country |
---|---|---|---|---|
1033 | Paul Cannon | University of Birmingham | Analytic description of ionospheric impact on space based synthetic aperture radars | U.K. |
1062 | Hiroshi SUZUKI | Kanazawa College of Art | Study for the application of earth observation technologies to art | Japan |
1063 | Motoyuki SATO | Tohoku University | Polarimetric calibration and applications to Northeast Asain Environemnta studies | Japan |
1113 | Charles Werner | Gamma Remote Sensing AG | ALOS PALSAR-2 quality assessment, calibration, and validation research | Switzerland |
1124 | Paul Siqueira | University of Massachusetts | ALOS System Characterization and Calibration for the Northeaster United States | U.S.A. |
1148 | David Sandwell | University of California San Diego | GEOMETRIC AND INTERFEROMETRIC CALVAL OF ALOS-2 PALSAR ALONG THE SAN ANDREAS FAULT SYSTEM | U.S.A. |
1187 | Toshifumi MORIYAMA | Nagasaki University | Polarimetri calibraiotn/validation of ALOS2/PALSAR2 | Japan |
1192 | Kazuki NAKAMURA | Nihon University | Study on relative calibration for PALSAR and PALSAR-2 using artificial structure and natural target | Japan |
1210 | Scott Hensley | Jet Propulsion Laboratory | Polarimetric, Geometric and Interferometric Cross Calibration of PALSAR-2 with UAVSAR | U.S.A. |
1213 | Franz J Meyer | University of Alaska Fairbanks | Survey of Ionospheric Distortions in High-Latitudal Spaceborne L-band SAR data and Evaluation of the Effectiveness of State of the Art Correction Algorithms | U.S.A. |
1214 | Franz J Meyer | University of Alaska Fairbanks | Analysis of Ionospheric Scintillation Artifacts in Equatorial Regions Using PALSAR-2 Data, GPS, and Simulations based on Ionospheric Models | U.S.A. |
1215 | Lars Ulander | Chalmers University of Technology | ALOS-2 PALSAR-2 calibration and validation activities in Sweden | Sweden |
1346 | Ridha Touzi | Canada Centre for Remote Sensing | Calibration and Validation of Polarimetric ALOS2 | Canada |
1391 | Alexander Zakharov | Fryazino branch of Kotel'nikov Institute of Radioengineering and Electronics, RAS | PALSAR-2 calibration with artificial and natural permanent scatterers | Russia |
1478 | Jun Su Kim | German Aerospace Center | Development of Combined TEC Imaging Methods for Forest Parameter Retrieval on High-Resolution SAR Data | Germany |
Land Use & Land Cover Research
2017年5月30日現在
No. | Name | Organization | Reseach Title | Country |
---|---|---|---|---|
1007 | Hasi Bagan | Ibaraki University | Land-cover classification using ALOS-2 in China and Mongolia | Japan |
1014 | Yoshio YAMAGUCHI | Niigata University | Development of ALOS-2 PALSAR polarimetric data utilization for monitoring the earth surface | Japan |
1028 | Dharmendra Singh | Indian Institute of Technology Roorkee | Development of adaptive land-cover classification method by effective utilization of polarimetric data | India |
1084 | Lim Hwee San | Universiti Sains Malaysia | COMPARATIVE PERFORMANCE OF ALOS-2 PALSAR-2 POLARIZATION BANDS AND ITS COMBINATION WITH ALOS AVNIR-2 DATA FOR LAND COVER CLASSIFICATION | Malaysia |
1139 | Atsuko NONOMURA | Kagawa University | Accuracy Improvement of Land Cover Classification Using ALOS and ALOS-2 Data | Japan |
1242 | Taejung Kim | Inha University | Generation of high quality digital elevation models through matching of PALSAR-2 images and comparison with digital elevation models from optical images | Korea |
1290 | Irina Smirnova | Institute of Remote Sensing Methods for Geology (VNIIKAM) | Monitoring of Landscape Changes Due to Exploitation of Oil Fields and Oil Pipelines in Timan-Pechorian Petroleum Province Using ALOS Data | Russia |
1310 | Jorge Leon Sarmiento | The Nature Conservancy | Green Infrastructure Assessment & Monitoring: Latin-America Major Cities Freshwater Supplying Watersheds | Colombia |
1384 | Kabir Uddin | International Centre for Integrated Mountain Development (ICIMOD) | Monitoring land cover dynamics and plant succession using ALOS imagery in the context of flood affect in Sunsari district, Nepal | Nepal |
1387 | Latifur Rahman Sarker | Universiti Teknologi Malaysia | Land-use and Land-cover Change and Mapping of Ecosystem Based Carbon Storage Capacity in Wet Tropical Asian Bioregion | Malaysia |
1404 | Fengli Zhang | Institute of Remote Sensing Applications, Chinese Academy of Sciences | Building extraction and 3D reconstruction using dual-aspect high resolution interferometric ALOS-2 data | China |
1410 | Daisuke SANGO | PASCO | Evaluation of Visibility and Coherency of Objects in Space-Borne SAR Images Obtained by Different Radio Frequencies | Japan |
1411 | Ke-Sheng Cheng | National Taiwan University | Application of feature space anisotropic spatial modeling to landuse/landcover change detection and classification | Taiwan |
1440 | Lu Zhang | Wuhan University | Joint Utilization of High-resolution L-band SAR Interferometry and Stereoscopy for Topographic Mapping in Mountainous Areas | China |
1462 | Marisa Dantas Bitencourt | University of São Paulo | The landscape effects on water quality parameters: understanding relationships to improve water resources management planning within the São Paulo City Green Belt Biosphere Reserve - Brazil | Brazil |
1488 | Kim Jungrack | University of Seoul | Desertification and sand dune migration process monitoring using L band SAR/InSAR | Korea |
1517 | Edson Eyji Sano | IBAMA (Brazilian Environmental Institute) | PALSAR-2 data for land cover mapping in Brazilian Amazonia | Brazil |
Geology
2017年7月13日現在
No. | Name | Organization | Reseach Title | Country |
---|---|---|---|---|
1026 | Philippe Paillou | University Bordeaux 1 | Potential of low frequency SAR to monitor arid environments: A case study in southern Tunisia | France |
1070 | Anton Filatov | Immanuel Kant Baltic Federal University | Complex study of radar interferometry potentialities for subsidence monitoring of ground surface and technogenic areas in conditions of changeable natural landscapes | Russia |
1206 | Perski Zbigniew | Polish Geological Institute - National Research Institute | Monitoring landslides movement over rugged mountain area integrated with multiband SAR | Poland |
1255 | Alberto Refice | Consiglio Nazionale delle Ricerche (CNR) | ALOS-2 data integration within a unified approach to the monitoring of landscape degradation processes at catchment scale | Italy |
1262 | Tohru TAKAHASHI | Oita National College of Technology | Development of the Education Program with Direct Access to the Earth Observation Data | Japan |
1319 | Pablo A. Euillades | CONICET / Facultad de Ingenieri, Universidad Nacional de Cuyo | DInSAR-based crustal deformation analysis of Copahue Volcano (Argentina) after the reactivation of the phreato-magmatic system on 2012 | Argentina |
1338 | Negin Fouladi Moghaddam | University of Victoria | Studying new capabilities offered by ALOS-2 for mapping and modeling fast mining related ground deformation in Surat Basin, Queensland, Australia | Canada |
1368 | Caijun Xu | Wuhan University | Monitoring crustal deformation in Qinghai-Tibet plateau using InSAR observations | China |
1375 | Sun-Lin Chung | National Taiwan University | Regional variation of continental orogen in Caucasus region | Taiwan |
1380 | Chung-Pai Chang | National Central University | Interferometric SAR time series analysis for monitoring the surface deformation in Taiwan area | Taiwan |
1388 | Hector Mora-Paez | Colombian Geological Survey | Monitoring land subsidence in Bogota, Colombia | Colombia |
1444 | Sang-Wan Kim | Sejong University | Active Stratovolcano Monitoring with Slow Deformation Using Time-series InSAR Analysis | Korea |
1516 | Christopher Stewart | Tor Vergata University | Assessment of PALSAR-2 potential for archaeological applications | Italy |
Geography
2017年5月30日現在
No. | Name | Organization | Reseach Title | Country |
---|---|---|---|---|
1019 | Masahiro ETAYA | Tokai University | A study on universally applicable archaeological exploration methods using space-borne SAR | Japan |
1119 | Sumiko ANNO | Shibaura Institute of Technology | Remote sensing applied for a study of geographical pathology for the relationships between malaria endemic and Malaria as Anthropo-Ecosystem consisting various subsystems | Japan |
1169 | Ram Avtar | United Nations University | Use of polarimetric and interferometric techniques to monitor ravenous area and erosional rate | Japan |
1492 | Sanjeev Gupta | Imperial College London | Detection and investigation of hidden geomorphological features by L band SAR signatures | U.K. |
Disaster and Earthquake
2017年10月5日現在
No. | Name | Organization | Reseach Title | Country |
---|---|---|---|---|
1024 | Josaphat Tetuko Sri Sumantyo | Chiba University | Monitoring of Land Deformation in Urban Areas using Polarimetry and Interferometry Techniques | Japan |
1031 | Masayuki TAMURA | Kanazawa Institute of Technology | Disaster damage assessment in urban areas using SAR imagery | Japan |
1037 | Howard A. Zebker | Stanford University | Time and Space Series InSAR for Natural Hazards and Resources | U.S.A. |
1041 | Yosuke ITO | Naruto University of Education | Utilization research of interferometric SAR in school education | Japan |
1044 | Andrei A. TRONIN | Scientific Research Centre for Ecological Safety by Russian Academy of Sciences (SRCES RAS) | Influence of meteorological and hydrogeological factors on ground surface vertical oscillations | Russia |
1046 | Qiang Chen | Southwest Jiaotong University | Postseismic landslides characterization and risk evaluation of slope failure with PALSAR-2 imagery in the Longmenshan fault zone | China |
1051 | Juan M. Lopez-Sanchez | University of Alicante | L-band polarimetric differential SAR interferometry for subsidence monitoring | Spain |
1054 | Pablo J. Gonzalez | The University of Western Ontario | Mapping ground surface deformation due to natural hazards using ALOS-2 interferometry | Canada |
1058 | Urs Wegmuller | Gamma Remote Sensing AG | Displacement mapping using PALSAR-2 DINSAR, PSI and tracking | Switzerland |
1064 | Motoyuki SATO | Tohoku University | Damage Evaluation and Investigation of Natural Disaster using Multi-Temporal Polarimetric SAR Data | Japan |
1077 | Tim Wright | University of Leeds | Spatial and temporal variation of Slow Slip Events on the Guerrero Subduction Zone by using ALOS PALSAR data | U.K. |
1093 | Ian Hamling | GNS Science | Active deformation due to calderas, cone volcanoes, tectonic rifting and geothermal fields in the Taupo Volcanic Zone, New Zealand | New Zealand |
1094 | Ian Hamling | GNS Science | Earthquakes and postseismic deformation at the Fiordland subduction zone and Alpine Fault, New Zealand | New Zealand |
1101 | Andrea Manconi | National Council of Research (CNR) | Advanced SAR techniques to efficiently monitor landslide phenomena | Italy |
1105 | Xiaopeng Tong | University of Washington | Interseismic Deformation of the Sumatra fault, Indonesia from GPS and InSAR | U.S.A. |
1110 | Taku OZAWA | National Research Institute for Earth Science and Disaster Prevention (NIED) | Research on precise detection of crustal deformation using PALSAR-2 | Japan |
1112 | Yousuke MIYAGI | National Research Institute for Earth Science and Disaster Prevention (NIED) | Volcano Monitoring using SAR and InSAR | Japan |
1118 | Alessandro Parizzi | German Aerospace Center (DLR) | PSI Technology for Future L-Band Systems | Germany |
No. | Name | Organization | Reseach Title | Country |
---|---|---|---|---|
1126 | Ian Hamling | GNS Science | Postseismic deformation following the devastating 2010-2011 Christchurch, New Zealand, earthquakes | New Zealand |
1131 | Tumen Chymitdorzhiev | Institute of Physical Material Science of the Siberian Branch of the 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 |
1134 | Matthew Garthwaite | Geoscience Australia | Monitoring of Natural Hazards in Papua New Guinea | Australia |
1138 | Carlos Lopez-Martinez | Universitat Politecnica de Catalunya UPC | Subsidence Phenomena and Change Monitoring in Urban and Mining Environments | Spain |
1140 | Xuejun Qiao | Institute of Seismology, China Earthquake Administration | Study on the Segmental Slip Rates and Tectonics of Yadong-Gulu rift(Tibet) by GPS and InSAR Measurements | China |
1142 | Remy Dominique | IRD-CNRS-OMP, Universite Paul Sabatier | Ground deformation monitoring and modeling of South-American volcanoes using satellite and ground based geodetic surveys | France |
1144 | Rowena Lohman | Cornell University | Application of InSAR to assessment of tectonic hazards in Cascadia | U.S.A. |
1149 | Antonio Pepe | National Council of Research (CNR) | Advanced Interferometric SAR Techniques for Earth Observation at L-band | Italy |
1153 | Robert Mellors | Lawrence Livermore National Laboratory (LLNL) | Earthquake characterization with InSAR and seismology in Central Asia and Middle East | U.S.A. |
1158 | Masanobu SHIMADA | Tokyo Denki University | InSAR CALVAL of PALSAR-2 and accurate estimation of the surface deformation using the time series analysis | Japan |
1161 | Mahdi Motagh | Helmholtz Centre Potsdam GFZ - German Research Centre for Geosciences | Evaulation of postseismic deformation mechanism following large earthquakes using PALSAR-2 data | Germany |
1162 | Mahdi Motagh | Helmholtz Centre Potsdam GFZ - German Research Centre for Geosciences | Investigation of mass movement processes in Central Asia using PALSAR-2 data | Germany |
1178 | Manabu HASHIMOTO | Kyoto University | Identification of buried active faults beneath plain with InSAR | Japan |
1184 | Marie-Pierre Doin | Université Joseph Fourier | Measurement of transient deformations using ALOS: constraints on lithospheric rheology | France |
1188 | Virginie Pinel | ISTerre-Universite de Savoie | Study of andesitic stratovolcanoes topographic changes, eruptive deposits and deformation through L-band Synthetic Aperture Radar imagery : an insight into the magmatic plumbing system | France |
1189 | R.S. Chatterjee | Indian Institute of Remote Sensing (Indian Space Research Organization) | Detection and Monitoring of Land Subsidence Scenario in Northern India | India |
1195 | Antonios Mouratidis | European Space Agency (ESA) | Education, Training and pilot projects in Cyprus | Italy |
No. | Name | Organization | Reseach Title | Country |
---|---|---|---|---|
1207 | Joong-Sun Won | Yonsei University | ALOS ScanSAR and Stripmap Interferometry for Studying Relative Motion between the Korean Peninsula and the Southwestern Japan | Korea |
1209 | Gerardo Herrera | Geological and Mining Survey of Spain | Combination of standard and advanced DInSAR analysis of ALOS PALSAR images for landslides detection and monitoring | Spain |
1216 | Charles Wicks | United States Geological Survey | Advancing the Knowledge of Magmatic, Tectonic and Hydrothermal Processes at Long Valley and Yellowstone Calderas Using ALOS-2/PALSAR-2 Stripmap and ScanSAR Data | U.S.A. |
1217 | Charles Wicks | United States Geological Survey | An ALOS-2/PALSAR-2 Study of Eight High Hazard Potential Volcanoes in the Southern Andean Volcanic Zone of Chile | U.S.A. |
1221 | S. Tabrez Ali | University of Wisconsin-Madison | Interferometric analysis of JERS-1, ALOS and ALOS-2 SAR data over subaerial spreading centers for constraining rheological models | U.S.A. |
1223 | Michael Poland | U.S. Geological Survey | Deformation of Kilauea and Mauna Loa volcanoes, Hawai'i, using ALOS-2 interferometry | U.S.A. |
1228 | Francisco Dourado | University of Rio de Janeiro State (UERJ) | Landslides, floods and land use changes monitoring for climate changes studies in Brazil using ALOS-2/PALSAR-2 images | Brazil |
1233 | Masato FURUYA | Hokkaido University | Elucidating the crustal deformation style of inland plate bounraries based on SAR data | Japan |
1235 | Guoxiang Liu | Southwest Jiaotong University | Monitoring Land Subsidence due to Overuse of Groundwater in China by ALOS/PALSAR-2 InSAR | China |
1236 | Yuri Fialko | University of California San Diego | Toward 4-D observations of seismic and volcanic deformation | U.S.A. |
1241 | Enrique Cabral-Cano | Universidad Nacional Autonoma de Mexico (UNAM) | Urban subsidence hazard and water resources exploitation in central Mexico | Mexico |
1243 | Hasanuddin Z. Abidin | Institute of Technology Bandung | STUDYING VOLCANO DEFORMATION AND FAULT ACTIVITY IN WEST JAVA INDONESIA BY GPS AND INSAR TECHNIQUES | Indonesia |
1246 | Lei Zhang | The Hong Kong Polytechnic University | Joint estimation of ground deformation and orbital errors by multi-temporal L-band SAR Interferometry | China |
1247 | Mingsheng Liao | Wuhan University | Monitoring of Landslide Movements with L-band PALSAR-1/2 Data Stacks in Mountainous and Valley Areas of Southwest China | China |
1249 | Itthi Trisirisatayawong | Chulalongkorn University | Determination of Interseismic Slip Rate of Sagaing fault from PALSAR Images | Thailand |
1251 | Fumitaka OGUSHI | Exelis VIS KK | Quantitative comparison of methods and sensors for monitoring land subsidence based on SAR interferometric stacking with ALOS-2 | Japan |
No. | Name | Organization | Reseach Title | Country |
---|---|---|---|---|
1266 | Lasserre Cecile | Université Grenoble Alpes | Interplay between aseismic slip, seismicity and fault properties : insights from InSAR measurements along the western North Anatolian Fault | France |
1273 | Timothy H. Dixon | University of South Florida | Evaluation of ALOS-2 observations for studying subsidence of the Gulf Coast and Mississippi Delta | U.S.A. |
1274 | John F. Dehls | Geological Survey of Norway | Characterization of active unstable rock slopes along the Norwegian fjords | Norway |
1286 | Youhei KINOSHITA | Remote Sensing Technology Center of Japan (RESTEC) | Interdisciplinary studies between geodesy and meteorology about atmospheric propagation delay with ALOS-2/PALSAR-2 | Japan |
1287 | Jean-Luc Froger | Laboratoire Magmas & Volcans Université Blaise Pascal | Monitoring Ground Surface Displacements and Topographic Changes at Piton de la Fournaise with PALSAR-2 | France |
1288 | Hu Jyr-Ching | National Taiwan University | Consistent measurements of crustal deformation of the Taiwan Island by ALOS-2 SAR interferometry | Taiwan |
1289 | Champenois Johann | Institut de Radioprotection et Sureté Nucléaire (IRSN) | Interseismic deformations and seismic hazard along the Pallatanga fault system (Ecuador): Contribution of space-borne SAR Interferometry with PALSAR data | France |
1293 | Pathier Erwan | ISTerre, Université Joseph Fourier | Monitoring slow-slip events along the Mexican subduction zone by ALOS-2 SAR interferometry | France |
1298 | Roland Burgmann | University of California, Berkeley | ALOS-2 InSAR Imaging Of Active Tectonics in Central California | U.S.A. |
1301 | Sang-Ho Yun | Jet Propulsion Laboratory | Imaging magma intrusion with joint inversion of seismicity and geodetic observations | U.S.A. |
1303 | Sang-Ho Yun | Jet Propulsion Laboratory | Damage Proxy Map for Earthquake Disaster Response | U.S.A. |
1306 | Roland Burgmann | University of California, Berkeley | ALOS-2 InSAR Imaging Of Earthquake Cycle Deformation in Tibet | U.S.A. |
1307 | Simone Atzori | Italian Institute for Geophysics and Volcanology (INGV) | SInkholes and Tectonic dynamics in Dead Sea through advanced InSAR | Italy |
1309 | Socquet Anne | ISTerre, Université Grenoble Alpes | Monitoring crustal deformation in the Central Andes : Nazca - South America subduction and sub-Andean ranges | France |
1311 | Raphael Grandin | Institut de Physique du Globe de Paris - UMR 7154 | InSAR monitoring of seismic hazard at the front of the eastern Himalaya | France |
1317 | Susan Schwartz | University of California Santa Cruz | Earthquake Cycle Strain Accumulation and Volcanic Deformation and Hazards in Costa Rica using ALOS-2 Observations | U.S.A. |
No. | Name | Organization | Reseach Title | Country |
---|---|---|---|---|
1325 | Gilles Peltzer | University of California Los Angeles | Observation of tectonic and magmatic deformations in Afar using PALSAR data | U.S.A. |
1326 | Paul Lundgren | Jet Propulsion Laboratory, California Institute of Technology | Application of InSAR and GPS time series to Southern California earthquake cycle deformation transients | U.S.A. |
1329 | Zhen Liu | Jet Propulsion Laboratory, California Institute of Technology | L-band ALOS Interferometric study of crustal deformation and earthquake hazard in the central San Andreas Fault system, California | U.S.A. |
1332 | Peter Webley | University of Alaska Fairbanks | Mapping of volcanic activity in the Cook Inlet region and Aleutian Islands, Alaska, USA | U.S.A. |
1333 | Peter Webley | University of Alaska Fairbanks | Understanding volcanic processes across the Kamchatka Peninsula, Russia | U.S.A. |
1334 | Cathleen E. Jones | Jet Propulsion Laboratory, California Institute of Technology | Long-Term Levee Monitoring in the Sacramento-San Joaquin Delta with L-band DInSAR | U.S.A. |
1337 | Paul Lundgren | Jet Propulsion Laboratory, California Institute of Technology | Application of ALOS-2 InSAR to volcano deformation processes | U.S.A. |
1339 | Thomas Oommen | Michigan Technological University | Multidisciplinary approach to volcanic hazard monitoring integrating remote sensing, with numerical modeling, and field observations at Pacaya Volcano, Guatemala | U.S.A. |
1342 | Timothy Masterlark | South Dakota School of Mines and Technology | Interferometric analysis of JERS-1, ALOS, and ALOS-2 SAR data for Okmok Volcano to constrain dynamic models of magmatic processes | U.S.A. |
1349 | Henriette Sudhaus | Helmholtz Centre Potsdam GFZ - German Research Centre for Geosciences | Combining SAR-measured surface deformation with seismic data for robust earthquake source modeling | Germany |
1352 | Freysteinn Sigmundsson | University of Iceland | Iceland InSAR studies utilizing ALOS-2 and ALOS: deformation and hazards related to magmatic, tectonic and glacio-isostatic processes | Iceland |
1356 | Gareth Funning | University of California, Riverside | Measuring fault creep and interseismic strain accumulation on the faults of Northern California | U.S.A. |
1357 | Helene Le Mevel | University of Wisconsin-Madison | Interferometric analysis of JERS-1, ALOS and ALOS-2 SAR data over active volcanoes in the Southern Andean Volcanic zone of Chile, South America, for constraining dynamic models of magmatic processes | U.S.A. |
1358 | Zhenhong Li | Newcastle University | Earth Observations: a modern tool for investigating earthquake and landslide hazards | U.K. |
1363 | Ryoichi FURUTA | Remote Sensing Technology Center of Japan (RESTEC) | Study on Geo-hazards Recognition/Risk Assessment Methods using Interferometric and Image Statistics Analysis | Japan |
1366 | Tomokazu KOBAYASHI | Geospatial Information Authority of Japan (GSI) | Research on secular crustal deformation in the Niigata-Kobe tectonic zone by applying InSAR time series analysis | Japan |
1372 | Eric J. Fielding | Jet Propulsion Laboratory, California Institute of Technology | Integrated Imaging for Fault Ruptures of Large Earthquakes with ALOS-2 data | U.S.A. |
1385 | Susan Owen | Jet Propulsion Laboratory | Disaster Monitoring and Response using InSAR and Coherence Change | U.S.A. |
No. | Name | Organization | Reseach Title | Country |
---|---|---|---|---|
1390 | Zhiwei Li | Central South University | Monitoring Permafrost Deformation in West China with PALSAR-2 Data | China |
1413 | Sylvain Barbot | Nanyang Technological University | Unraveling present-day deformation around the eastern and western syntaxes of the Himalayan range | Singapore |
1414 | Tran Dinh Lan | Institute of Marine Environment and Resources (IMER) | Monitoring environmental hazards in the coastal zone of Vietnam | Vietnam |
1419 | Linlin Ge | The University of New South Wales | Automated interferometric analysis of L-band SAR satellite data for operational earthquake and volcano monitoring | Australia |
1420 | Christophe Vigny | École Normale Supérieure Paris - UMR 8538 | Megathrust coupling in South Central Chile from joint InSAR-GPS measurements | France |
1425 | Cristiano Tolomei | Italian Institute for Geophysics and Volcanology (INGV) | Measure, analysis and modeling of ground deformation in the seismic cycle by means of advanced multi-temporal, multi-band InSAR monitoring | Italy |
1434 | Sabrina Metzger | Helmholtz Centre Potsdam GFZ - German Research Centre for Geosciences | MONITORING DEFORMATION CYCLES IN THE FOREARC OF THE CHILE SUBDUCTION ZONE | Germany |
1436 | Lujia Feng | Nanyang Technological University | Study Active Deformation along the Sumatran fault using InSAR and GPS | Singapore |
1438 | Youichiro TAKADA | Hokkaido University | InSAR analysis of crustal deformation in steep mountainous area: its relationship with geologic structure | Japan |
1439 | Zhong Lu | U.S. Geological Survey | STUDYING DEFORMATION OF ALEUTIAN VOLCANOES USING L-BAND ALOS-2 PALSAR-2 INSAR | U.S.A. |
1441 | Lyon-Caen Helene | École Normale Supérieure Paris | Fault kinematics and coupling near the Cocos/Caribbean/North America triple junction area in Guatemala, from SAR interferometry | France |
1455 | Yasunori NAKAYAMA | Nihon University | Analysis of the natural disaster based on the investigation of land cover and geographical feature distribution in East Asia by ALOS-2 data | Japan |
1479 | Sigurjon Jonsson | King Abdullah University of Science and Technology (KAUST) | Geohazards in the Middle East studied with ALOS-2 Interferometry | Saudi Arabia |
1495 | Marius Necsoiu | Southwest Research Institute | Monitoring Slope-channel Adjustment in a Tectonically Active Area (Carpathian and Subcarpathian Prahova Valley, Romania) | U.S.A. |
1500 | Makoto MURAKAMI | Hokkaido University | Evaluation of the Impact of Snow and Ice Coveradge on L-band Interferometry over Volcanoes | Japan |
1503 | Fumio YAMAZAKI | Chiba University | Urban modeling and damage detection due to natural disasters using ALOS-2 data | Japan |
1504 | Steve Bowman | Utah Geological Survey | Ground Surface Deformation using Interferometric Synthetic Aperature Radar (InSAR) Data in Southwestern Utah, USA | U.S.A. |
1506 | Akiko TANAKA | National Institute of Advanced Industrial Science and Technology (AIST) | Crustal deformation monitoring in seismic and volcanic areas using L-band SAR data | Japan |
1511 | Tatsuharu KOBAYASHI | National Institute of Information and Communications Technology (NICT) | Study on disaster monitoring by combining ALOS-2/PALSAR-2 and an airborne SAR(Pi-SAR2) | Japan |
1521 | Vern Singhroy | Natural Resources, Canada | High-resolution, Rapid revisit InSAR for monitoring mining activities and landslides | Canada |
1525 | Fusanori MIURA | Yamaguchi University | Study on applicability of ALOS-2 on disaster mitigation | Japan |
Agriculture
2017年5月30日現在
No. | Name | Organization | Reseach Title | Country |
---|---|---|---|---|
1049 | Juan M. Lopez-Sanchez | University of Alicante | L-band SAR polarimetry for crop phenology retrieval and soil moisture estimation | Spain |
1095 | Chinatsu YONEZAWA | Tohoku University | Polarimetric Analysis of ALOS PALSAR-2 data for agricultural field to detect cropping and growth information | Japan |
1167 | Abdul Rashid Bin Mohamed Shariff | Universiti Putra Malaysia (UPM) | Sensor network of monitoring oil palm plantation in Malaysia | Malaysia |
1240 | Nasreen Islam Khan | International Rice Research Institute | Rice crop monitoring with PALSAR and other products for food security applications | Philippines |
1371 | Haydee Karszenbaum | Instituto de Astronomia y Fisica del Espacio, IAFE (CONICET-UBA) | Soil moisture monitoring using ALOS/PALSAR data in Areco watershed (Buenos Aires Province, Argentina): combining modeling, field work and data exploitation | Argentina |
1396 | Gulab Singh | Indian Institute of Technology Bombay | Radar Polarimetry for Indian Agroforestry Monitoring: The Crop Monitoring Underneath The Poplar (Populus Deltoids) Plantation Using Full-POL-SAR data | India |
1421 | Naoki ISHITSUKA | National Institute for Agro-Environmental Sciences | Development of paddy rice area and crop mesuerment method using ALOS-2 | Japan |
1448 | Durand Philippe | CNES | Enhancement of the Kalideos Remote Sensing Databases using ALOS-2 data | France |
1449 | Nobuhiro TOMIYAMA | Remote Sensing Technology Center of Japan (RESTEC) | An experiment of growth-situation understanding of large-size grass species by L-band SAR data | Japan |
1460 | Maurizio Migliaccio | Università di Napoli Parthenope | SAR POLARIMETRY FOR VEGETATION APPLICATIONS | Italy |
1507 | Kuniaki UTO | Tokyo Institute of Technology | A study of Coastal zone vegetation with a focus on agriculture using SAR data | Japan |
Snow & Ice
2017年10月5日現在
No. | Name | Organization | Reseach Title | Country |
---|---|---|---|---|
1008 | Duncan Quincey | University of Leeds | Quantifying the flow dynamics of Karakoram glacier surges | U.K. |
1038 | Aleksey Kontsevich | University of Latvia | SAR INTERFEROMETRY AND POLARIMETRY FOR STUDYING AND MAPPING PERMAFROST IN YAKUTIA | Latvia |
1052 | J.J. van der Sanden | Canada Centre for Remote Sensing (CCRS) | L-band SAR in Support of Freshwater Ice Mapping and Monitoring | Canada |
1078 | Eric Rignot | Jet Propulsion Laboratory | ALOS-2 Studies of Antarctic Ice Flow and Grounding Line Dynamics | U.S.A. |
1122 | C.K. Shum | The Ohio State University | Estimation of Qinghai-Tibetan Plateau Permafrost Degradation and Asian High Mountain Glacier Mass Balance Using ALOS-2 InSAR | U.S.A. |
1151 | Armando Marino | The Open University | COOL-PolinSAR: Cold water Ocean Observation with L-band Polarimetric and Interferometric ALOS-2 SAR data | U.K. |
1164 | Sang-Eun Park | Sejong University | Monitoring snowpack dynamics in temperate climates by ALOS-2 quad-pol mode | Korea |
1179 | Takatoshi YASUDA | Hokkaido University | Surface Velocity Field of Mountain Glacier and Spatio-Temporal Variation in Tibetan Plateau Detected by Synthetic Aperture Radar Technique | Japan |
1202 | Stephen Howell | Environment Canada | Retrieval of sea ice parameters from time series PALSAR-2 imagery using geophysical inversion | Canada |
1324 | Leonardo D. Euillades | CONICET / Facultad de Ingenieri, Universidad Nacional de Cuyo | Glacier motion estimation using SAR images in Viedma Glacier, Patagonia, Argentina | Argentina |
1359 | Guido Grosse | Alfred Wegener Institute Helmholtz Centre for Polar and Marin Research | Using L-band PALSAR-2 data to assess thermokarst lake ice thickness, ice cover timing, bathymetry, and lake methane emissions | Germany |
1365 | Hiroyuki WAKABAYASHI | Nihon University | Improvement of sea ice physical parameters estimated from PALSAR-2 polarimetric SAR data | Japan |
1398 | Gulab Singh | Indian Institute of Technology Bombay | Development of New Radar Remote Sensing Techniques Using Polarimetric ALOS-PALSAR-2 Data for Retrieval of Himalayan Glaciated Terrain Parameters | India |
1422 | Muzalevskiy K.V | Kirensky Institute of Physics Siberian Brunch of the Russian Academy of Science | Monitoring Moisture and Temperature in a Layered Structure of the Active Topsoil of the Arctic Tundra Using the ALOS PALSAR Data | Russia |
1470 | Matthias Braun | Universität Erlangen-Nürnberg | Study of the dynamic state of ice shelves on the south-western Antarctic Peninsula | Germany |
1493 | Hajo Eicken | University of Alaska Fairbanks | Towards operational use of L-band SAR data in improved sea ice hazard surveys, ice forecasts and assessments of marine mammal habitats | U.S.A. |
Vegetation, Forestry and Wetland
2017年5月30日現在
No. | Name | Organization | Reseach Title | Country |
---|---|---|---|---|
1012 | Gaia Vaglio Laurin | Euro Mediterranean Center for Climate Change (CMCC) | Assessing above ground biomass in forests with ALOS 2 | Italy |
1013 | Howard A. Zebker | Stanford University | Imaging forest canopy volumes with time series InSAR | U.S.A. |
1029 | Bambang Hendro Trisasongko | Bogor Agricultural University | Rubber Plantation Monitoring by Means of L-Band SAR | Indonesia |
1040 | Belen Marti-Cardona | Universitat Politecnica de Catalunya (UPC) | Monitoring Donana wetlands and Isla Mayor rice croplands with fully polarimetric L-band data | Spain |
1047 | Patricia Kandus | Universidad Nacional de General San Martin (UNSAM) | Polarimetric SAR observations contribution to mapping spatial and temporal variability of macrophyte cover and biomass in the Lower Parana River floodplain | Argentina |
1050 | Edward Mitchard | University of Edinburgh | Can L-band radar be used operationally for REDD+ in tropical forests? | U.K. |
1053 | David G. Goodenough | University of Victoria | Development and Demonstration of Polarimetric and Compact-polarimetric SAR for Forest Applications | Canada |
1069 | Masanobu SHIMADA | Tokyo Denki University | Development of biomass retrieval algorithm by using L-band SAR | Japan |
1082 | Bruce Chapman | Jet Propulsion Laboratory | Monitoring Environmental Changes in North and South America | U.S.A. |
1090 | Veraldo Liesenberg | Santa Catarina State University (UDESC) | Characterizing Tropical Successional Forest Stages in Eastern Amazon (Brazil) and Central Kalimantan (Indonesia) with L-band SAR data under REDD mechanism | Brazil |
1091 | Mihai A. Tanase | The University of Melbourne | Quantifying and monitoring carbon dynamic in forest ecosystems affected by wildfires using multi-temporal SAR data | Australia |
1152 | Casey M Ryan | University of Edinburgh | Understanding the biomass-backscatter relationship in African woodlands | U.K. |
1170 | Ram Avtar | United Nations University | Monitoring and comparison of biophysical parameters of plantation species in tropical region using Polarimetric SAR data | Japan |
1172 | Nguyen Thanh Hoan | Institute of Geography, Vietnam Academy of Science and Technology | Monitoring degradation of tropical natural forest using multi-sensor data from ALOS satellites | Vietnam |
1175 | Takeshi MOTOHKA | Japan Aerospace Exploration Agency | Fusion use of ScanSAR and Stripmap data for forest cover change monitoring | Japan |
1194 | Stian Normann Anfinsen | University of Tromsø | Monitoring Carbon in Tanzanian Woodlands (MCTWO) | Norway |
1203 | Choen Kim | Kookmin University | Stand-Level Growing Stock Volume Mapping in Korea Using PALSAR-2 Gamma-Nought and NFI Data | Korea |
1205 | Joerg Haarpaintner | Norut - Northern Research Institute Tromsoe | Tropical Forest Monitoring by SAR for REDD+ in DRC | Norway |
No. | Name | Organization | Reseach Title | Country |
---|---|---|---|---|
1208 | Joao Carreiras | University of Sheffield | Assessing the distribution of above-ground biomass in a range of forest types across the pan-tropical belt using L-band SAR data | U.K. |
1225 | Guoqing Sun | University of Maryland | Mapping of Forest Physical Parameters from PALSAR data in Mountainous Areas | U.S.A. |
1237 | Sang-Hoon Hong | Korea Polar Research Institute | Exploring ALOS-2 PALSAR-2 observations for retrieval of vegetation parameters in tropical and sub-tropical area | Korea |
1264 | Dariusz Ziolkowski | Institute of Geodesy and Cartography | The synergy of interferometric and polarimeric methods for forest biomass assessment using ALOS-2 images | Poland |
1278 | Mahmud Arifin Raimadoya | Bogor Agricultural University (IPB) | ALOS2-Indonesia REDD+ Experiment (AIREX) | Indonesia |
1282 | Simone Pettinato | Institute of Applied Physics "Carrara" - National Research Council (IFAC-CNR) | HYDRO-ALOS2: The retrieval and monitoring of Land Hydrological parameters for Risk and Water Resources Management | Italy |
1284 | Florian Siegert | Ludwig-Maximilians-University | Forest monitoring and aboveground biomass assessment in tropical rain forests | Germany |
1291 | Shimon Wdowinski | University of Miami | Evaluation of ALOS-2 observations for the Wetland InSAR application | U.S.A. |
1294 | John M. Kovacs | Nipissing University | Examining the use of PALSAR-2 for mapping and monitoring degraded tropical coastal forested wetlands | Canada |
1382 | Diego de Abelleyra | Instituto Nacional de Tecnologia Agropecuaria (INTA) | The use of Quad Pol L band RADAR for forest monitoring in Argentina | Argentina |
1397 | Christian Berger | Friedrich-Schiller-University Jena | PALSAR-2 data to support the assessment of aboveground forest biomass (PAL2BIO) | Germany |
1406 | Johan Fransson | Swedish University of Agricultural Sciences | Retrieval of forest biomass and biomass change using PALSAR data | Sweden |
1424 | Akira KATO | Chiba University | Estimating Woody Biomass using Satellite Radar and Terrestrial Lidar | Japan |
1428 | Maurizio Santoro | Gamma Remote Sensing AG | Detecting long-term trends in forest dynamics with L-band SAR | Switzerland |
1454 | Aire Olesk | University of Tartu | Improving the Aboveground Forest Biomass Estimation Methodology for Temperate Deciduous, Coniferous and Mixed Forest of Estonia Using Spaceborne SAR Imagery | Estonia |
No. | Name | Organization | Reseach Title | Country |
---|---|---|---|---|
1466 | Nicolas Longepe | Collecte Localisation Satellites CLS | On the synergic use of L-band SAR and VHR optical data for mangrove monitoring: case study from Papua, Indonesia | France |
1502 | Kenlo NASAHARA | University of Tsukuba | Multiple monitoring of biomass and plant distribution of terrestrial ecosystem by satellite and ground observations | Japan |
1510 | Renaud Mathieu | Council for Scientific and Industrial Research - Natural Resources & Environment | Mapping and assessing woody biomass changes in semi-arid South African savannahs from multi-temporal L-band data | South Africa |
1515 | Giovanni Laneve | SAPIENZA Università di Roma | Assessment of fire damage estimations from ALOS data | Italy |
1520 | Carlos Alberto Pedraza | The Nature Conservancy | Measuring Effective Conservation in The Northern Andes and South Central America Conservation Program Phase II | Colombia |
1523 | Dirk Hoekman | Wageningen University | Improved tropical vegetation structure assessment in wetlands and hilly terrain using polarimetry | Netherlands |
1529 | Richard Lucas | University of New South Wales Australia | Evaluation of ALOS-2 PALSAR data to support JAXA's Global Mangrove Watch | Australia |
1530 | Richard Lucas | University of New South Wales Australia | An assessment of the use of ALOS-2 PALSAR, ALOS PALSAR and JERS-1 SAR for forest characterization, mapping and monitoring in eastern Australia | Australia |
1531 | Robert Treuhaft | Jet Propulsion Laboratory, Caltech | Tropical Forest Structure and Biomass from L-band, Repeat-Track Interferometric SAR from PALSAR-2 | U.S.A. |
Hydrology
2017年5月30日現在
No. | Name | Organization | Reseach Title | Country |
---|---|---|---|---|
1006 | Thomas G Farr | Jet Propulsion Laboratory | Groundwater monitoring with interferometric PALSAR data | U.S.A. |
1021 | Y. S. Rao | Indian Institute of Technology Bombay | Soil Moisture Mapping and Agriculture Crop Studies using ALOS PALSAR-2 Polarimetric SAR Data | India |
1076 | Hyongki Lee | University of Houston | WETLAND HYDRODYNAMICS OVER THE CONGO RIVER BASIN AND THE EVERGLADES USING ALOS-2 SAR INTERFEROMETRY | U.S.A. |
1079 | Marc Thibeault | Comisión Nacional de Actividades Espaciales (CONAE) | Soil Moisture Estimation over the Pampa Region using Alos-2 | Argentina |
1085 | Karl Schneider | University of Cologne | Utilizing ALOS-2 Soil Moisture and Crop Biomass Estimates in Environmental Models of Water Fluxes and Plant Growth | Germany |
1089 | Brian D. Conway | State of Arizona Department of Water Resources | PALSAR-2 Data Collection in Arizona, USA for Evaluating L-Band Data for Land Subsidence Monitoring | U.S.A. |
1103 | Michelle Sneed | U.S. Geological Survey | Detection, Monitoring, and Characterization of Aquifer-System Compaction and Land Subsidence using Satellite-Borne SAR Interferometry | U.S.A. |
1165 | Chihiro YOSHIMURA | Tokyo Institute of Technology | Advancing river environmental management using high resolution satellite images | Japan |
1196 | Francesco Mattia | Italian National Council of Research (CNR) | Time series of PALSAR-2 data for soil moisture retrieval | Italy |
1211 | Masanobu SHIMADA | Tokyo Denki University | Quantitative Soil Moisture and Biomass Estimation by ALOS-2 Repeat-Pass PolInSAR | Japan |
1296 | Sandra Heleno | Instituto Superior Técnico | Study of Tectonics and Hydrology in the Urema Rift, Mozambique | Portugal |
1315 | Maria Mercedes Salvia | Instituto de Astronomía y Física del Espacio, IAFE (CONICET-UBA) | Satellite estimation of flooded area and river water level dynamics: development of multisensor strategies | Argentina |
1344 | Kurt L. Feigl | University of Wisconsin-Madison | Interferometric analysis of JERS-1, ALOS and ALOS-2 SAR data over geothermal areas for constraining rheological models | U.S.A. |
1354 | Monique Bernier | Institut National de la Recherche Scientifique | Development of SMAP Freeze/Thaw algorithms adapted for the Canadian tundra using Active and Passive Microwave Data | Canada |
1389 | Magaly Koch | Boston University | Investigating the Use of ALOS-2/PALSAR-2 for Hydrogeological Studies in Desert Environments | U.S.A. |
1395 | Emma Hill | Nanyang Technological University | Monitoring of land subsidence in Indonesian cities, using a combination of InSAR and continuous GPS | Singapore |
1403 | Toshio KOIKE | The University of Tokyo | Development of soil moisture algorithm using PALSAR and application to soil moisture monitoring | Japan |
1408 | Praveen Kumar Thakur | Indian Institute of Remote Sensing (IIRS) | Hydrological parameter retrieval and glacier dynamics study with L-band SAR data | India |
1486 | Mahta Moghaddam | University of Southern California | Joint PALSAR-2, SMAP, and AirMOSS retrievals of vegetation characteristics and surface-to-depth profiles of soil moisture | U.S.A. |
1505 | Tetsuya HIYAMA | HyARC, Nagoya University | Hydrological monitoring of surface wetness in seasonal wetlands of northern Namibia, in order to introduce "Flood- and Drought-Adaptive Cropping Systems" | Japan |
Oceanography and Coastal Zone
2017年5月30日現在
No. | Name | Organization | Reseach Title | Country |
---|---|---|---|---|
1036 | Xiaofeng Li | General Science and Technologies | Application of ALOS-2 PALSAR-2 data for ocean oil spill monitoring and coastline change detection | U.S.A. |
1100 | Mitnik Leonid | V.I. Il'ichev Pacific Oceanological Institute, FEB RAS (POI FEB RAS) | Oceanic dynamic phenomena and sea ice study in the Northwest Pacific Ocean using L-band and C-band SAR | Russia |
1129 | Motofumi ARII | Mitsubishi Space Software CO., LTD. | Validation of applicability of PALSAR2/ALOS2 to maritime monitoring | Japan |
1193 | Vladimir Kudryavtsev | Russian State Hydrometeorological University (RSHU) | Imaging of sub- and mesoscale ocean dynamics with multi-pol SAR in L- and C-bands | Russia |
1212 | William J. Emery | University of Colorado, Boulder | Observation of Upwelling and Biogenic Slicks through L-band SAR: California Coast and the Arab Sea | U.S.A. |
1239 | Kyung-Ae Park | Seoul National University | Characteristics of High-Resolution Sea Surface Wind Fields along the Korean Coast from PALSAR Data and Air-Sea-Land Interaction | Korea |
1258 | Osamu ISOGUCHI | The Remote Sensing Technology Center of Japan (RESTEC) | Ocean surface velocity measurements by Doppler Centroid anomalies | Japan |
1263 | Ferdinando Nunziata | Università di Napoli Parthenope | Multi-polarization PALSAR-2 SAR data for oil field and sea ice observation | Italy |
1336 | Cathleen E. Jones | Jet Propulsion Laboratory, California Institute of Technology | Oil Spill Response with Multi-polarization PALSAR-2 | U.S.A. |
1343 | Benjamin Holt | Jet Propulsion Laboratory | ALOS-2 Observations for Sea Ice and Ocean Studies | U.S.A. |
1353 | Simon Yueh | Jet Propulsion Laboratory, California Institute of Technology | Inter-Calibration and Validation of ALOS-2 PALSAR, Aquarius and SMAP L-band Measurements of Ocean Surface Wind | U.S.A. |
1401 | Kazuo OUCHI | IHI | Extraction and analyses of ocean information by multi-frequency and multi-polarization SAR | Japan |
1417 | Albertus Sulaiman | Badan Pengkajian dan Penerapan Teknologi (BPPT) | Sea Surface Roughness Identification based on Synthetic Aperture Radar Data in Indonesian Waters | Indonesia |
1427 | Takuji WASEDA | The University of Tokyo | Detection of freak waves and wave-current interaction around an island | Japan |
1429 | Masanori WATAGAWA | PASCO | Monitoring methodology in coastal environments using Earth Observation Satellite | Japan |
1497 | Teruhisa KOMATSU | The University of Tokyo | Development of methods to map coastal ecosystems and human activities related to coastal fisheries in East and Southeast Asia with use of PALSAR-2 | Japan |
1498 | Satoshi TAKEWAKA | University of Tsukuba | Use of PALSR-2 data for coastal erosion analyses in Asian countries | Japan |
1499 | Katsutoshi KOZAI | Kobe university | Development of evaluation method for offshore wind energy resource using PALSAR-2, scatterometer and mesoscale meteorological model | Japan |
Polar Research
2017年5月30日現在
No. | Name | Organization | Reseach Title | Country |
---|---|---|---|---|
1098 | Wolfgang Dierking | Alfred Wegener Institute Helmholtz Centre for Polar and Marine Research | Investigations of Sea Ice Conditions On Regional And Local Scales Using SAR Images | Germany |
1173 | Masato FURUYA | Hokkaido University | Ice flow speed and mass changes at three Greenland outlet glaciers using SAR data | Japan |
1186 | Jennifer Sobiech | Alfred Wegener Institute for Polar and Marine Research | Derivation of Environmental Parameters of Arctic Tundra Landscapes from Radar Remote Sensing Data | Germany |
1191 | Kazuki NAKAMURA | Nihon University | Study on fluctuation of ice sheet and its glacier in East Antarctica derived from PALSAR and PALSAR-2 data | Japan |
1200 | Annett Bartsch | Vienna University of Technology | Identification of long term, intra-seasonal and inter-seasonal changes of land surface hydrology in thermokarst regions | Austria |
1224 | Lin Liu | The Chinese University of Hong Kong | Mapping Active Layer and Near-Surface Permafrost Dynamics in Northern Alaska Using PALSAR-2 | U.S.A. |
1238 | Byongjun Hwang | Scottish Association for Marine Science | Detecting Marginal Ice Zone Transition in the Arctic using ALOS/PALSAR-2 data | U.K. |
1327 | Jeremie Mouginot | University of California, Irvine | Ice velocity Mapping in Greenland and Patagonia | U.S.A. |
1331 | Leif Eriksson | Chalmers University of Technology | ALOS-2 PALSAR-2 for sea ice and polar oceanography | Sweden |
1350 | Wolfgang Rack | University of Canterbury | Short term variability of ice flow near Antarctic grounding zones | New Zealand |
1351 | Andrew Hooper | University of Leeds | Constraining glacial isostatic adjustment in western Antarctica | U.K. |
1362 | Hiroyuki WAKABAYASHI | Nihon University | Evaluation of tundra lakes affected by climate change in Arctic area | Japan |
1402 | Hoonyol Lee | Kangwon National University | Tidal flexure of glaciers in Terra Nova Bay, Antarctica, observed by double-differential SAR interferometry | Korea |
1407 | Duk-jin Kim | Seoul National University | Study on dynamics and evolution of Thwaites Glacier in the Amundsen Sea, West Antarctica, using ALOS2 PALSAR data | Korea |
1418 | Tsutomu YAMANOKUCHI | Remote Sensing Technology Center of Japan (RESTEC) | Use of PALSAR-2 / PALSAR data for precise understanding of ice mass balance on Polar region | Japan |
1464 | Hyung-Sup Jung | University of Seoul | Multi-temporal Analysis of Arctic Glacier Movements by L-band SAR Satellite Observations | Korea |
1469 | Matthias Braun | Universität Erlangen-Nürnberg | Mapping of ice dynamics, elevation and structures of Antarctic glaciers and ice shelves | Germany |
1496 | Koichiro DOI | National Institute of Polar Research | Ice sheet and crustal movements monitoring in polar region using satellite synthetic aperture radar | Japan |
Polarimetry and Interferometry
2017年5月30日現在
No. | Name | Organization | Reseach Title | Country |
---|---|---|---|---|
1020 | Naomi Short | Natural Resources Canada | ALOS-2 SAR Interferometry for Monitoring Permafrost Environments | Canada |
1043 | Shiv Mohan | Physical research laboratory, CEPT University, and MS University, Baroda | Multi thematic evaluation of Full polarimetry, hybrid polarimetry and interferometry | India |
1071 | Junichi SUSAKI | Kyoto University | Production of urban density map using PALSAR/PALSAR-2 | Japan |
1072 | Avik Bhattacharya | Indian Institute of Technology Bombay | Snow pack parameter estimation and Glacier movement studies using SAR data | India |
1096 | Andrzej Lesniak | AGH University of Science and Technology (AGH UST) | Improved assessment of impact of underground mining on surface deformations based on radar interferometry analysis of ALOS and ALOS-2 data | Poland |
1097 | Masato OHKI | Japan Aerospace Exploration Agency | Study on land-cover dependence of PALSAR-2 PolInSAR data and its application for classification | Japan |
1114 | Timo Balz | Wuhan University | High-resolution L-band InSAR, PS-InSAR, and TomoSAR applications in urban areas | China |
1115 | Thomas Engel | Clausthal University of Technology | Investigation and Monitoring of strong surface deformation in rural areas by interferometric analyses of the L-band SAR | Germany |
1125 | Paul Siqueira | University of Massachusetts | Vegetation SAR and InSAR algorithm Development | U.S.A. |
1128 | Yoshio YAMAGUCHI | Niigata University | Scientific Research for ALOS-2 Multi-temporal Polarimetric Data by World Polarimetry Community | Japan |
1130 | Motofumi ARII | Mitsubishi Space Software CO., LTD. | Sensitivity analysis of time-series PolSAR data to land cover change in terms of incidence angles | Japan |
1132 | Erxue Chen | Chinese Academy of Forestry (CAF) | Forest structure information extraction from multi-parameters ALOS-2 PALSAR-2 data | China |
1137 | Andreas Schmitt | University of Applied Sciences Munich | Fully automated change detection and time series processing on polarimetric PALSAR-2 acquisitions | Germany |
1147 | Thomas L. Ainsworth | Naval Research Laboratory | Monitoring of Forests, Agricultural and Coastal Vegetation with Polarimetric PALSAR-2 Imagery | U.S.A. |
1154 | Akira HIROSE | The University of Tokyo | Investigation of high-precision co-registration, highly functional filtering and high-speed unwrapping methods based on hypercomplex-valued neural networks for high-resolution PolInSAR data | Japan |
1182 | Hiroshi KIMURA | Gifu University | SAR Interferometry Using Multiple Apertures and SAR Polarimetry of Built-up areas | Japan |
1199 | Torbjorn Eltoft | University of Tromsø | Multi-Frequency Polarimetric Characterization of Arctic Sea Ice | Norway |
1248 | Lena Sumargana | Agency for the Assessment and Application of Technology (BPPT) | Polarimetric Synthetic Aperture Radar for Indonesian Agriculture Sector | Indonesia |
1265 | Zhang Hong | Institute of Remote Sensing and Digital Earth (RADI), CAS | Polarimetric SAR scattering characteristics and application to classification and change detection | China |
1313 | Othmar Frey | ETH Zurich | Research on polarimetric and interferometric techniques for bio- and geophysical parameter extraction using multi-temporal ALOS-2 PALSAR-2 data | Switzerland |
1320 | Zakharova Liudmila | Fryazino branch of Kotel'nikov Institute of Radioengineering and Electronics of RAS | Polarimetric and interferometric study of radiophysical parameters of forests depending on meteorological conditions | Russia |
1321 | Pablo A. Euillades | CONICET / Facultad de Ingenieri, Universidad Nacional de Cuyo | Analysis of temporal coherence behavior from polarimetric and multi-frequency SAR data for long-term crustal deformation monitoring: a case study of Mendoza City Area | Argentina |
1322 | Leonardo D. Euillades | CONICET / Facultad de Ingenieri, Universidad Nacional de Cuyo | Mining subsidence monitoring by using Small BAseline Subsets (SBAS) in Argentina | Argentina |
1330 | Marco Lavalle | Jet Propulsion Laboratory, California Institute of Technology | Extracting structural and temporal parameters of forests from repeat-pass polarimetric-interferometric PALSAR-2 data | U.S.A. |
1355 | Parwant Ghuman | 3V Geomatics Inc. | Seasonal Target Interferometry over Vegetated Terrain | Canada |
1409 | Ryoichi SATO | Niigata University | Development of effective utilization method of ALOS-2 polarimetric data for stricken man-made objects and wide agricultual areas | Japan |
1412 | Hyung-Sup Jung | University of Seoul | Observations of Ionospheric Phase Variations over Southern California in L-band SAR interferometry | Korea |
1415 | Simon Zwieback | ETH Zurich | Analysis of the effect of soil moisture variations on polarimetric DInSAR observables | Switzerland |
Resources Related Research
2017年5月30日現在
No. | Name | Organization | Reseach Title | Country |
---|---|---|---|---|
1133 | Matthew Garthwaite | Geoscience Australia | Geodetic determination of surface deformation due to resource extraction in Australia | Australia |