研究公募
第6回ALOS研究公募 PIメンバーリスト Sensor Calibration
Sensor Calibration
2021年3月31日現在
No. | Name | Organization | Reseach Title | Country |
---|---|---|---|---|
3118 | David T. Sandwell | University of California San Diego | Geometric and Interferometric CALVAL of ALOS-2 PALSAR-2 | USA |
3151 | Toshifumi Moriyama | Nagasaki University | Polarimetric calibration/validation of ALOS2/PALSAR2 -part2- | Japan |
3305 | Adrian Borsa | University of California San Diego | Validation of ALOS-2 PALSAR-2 interferometry using satellite altimetry and GPS | USA |
3310 | Alexander Zakharov | Fryazino branch of Kotel'nikov Institute of Radioengineering and Electronics, RAS | Application of point and distributed targets for PALSAR-2 radiometric calibration | Russia |
3364 | Zhu Wu | Chang’an University | Estimation and compensation of ionospheric contribution to InSAR observation | China |
[Priority Themes] Ecological systems monitoring including agriculture
2021年3月31日現在
No. | Name | Organization | Reseach Title | Country |
---|---|---|---|---|
3055 | Gulab Singh | Indian Institute of Technology Bombay | Spatio-temporal monitoring of forest bio-physical parameters using ALOS-2 full polarimetric InSAR measurements | India |
3066 | Edward Mitchard | University of Edinburgh | Testing the utility of L-band SAR to estimate changes in forest biomass due to forest degradation. | UK |
3068 | Annett Bartsch | b. geos GmbH | Advanced cryosphere monitoring at the Sonnblick Observatory (Austria) within the framework of Global Cryosphere Watch | Austria |
3098 | Jianjun Zhu | Central South University | Extraction of Forest Underlying Topography from L-band PolInSAR Data | China |
3124 | Marco Lavalle | Jet Propulsion Laboratory, California Institute of Technology | Extracting structural and temporal parameters of forests from repeat-pass polarimetric-interferometric PALSAR-2 data | USA |
3283 | Kenlo Nishida Nasahara | University of Tsukuba | Multiple monitoring of plant distribution and biomass of terrestrial ecosystem by satellite and ground observations | Japan |
3337 | Zheng-Shu Zhou | Commonwealth Scientific and Industrial Research Organisation (CSIRO) | Multi-Temporal Polarimetric ALOS-2 Imagery for Dryland Crop Mapping | Australia |
3354 | Elijah Ramsey III | U.S. Geological Survey | ALOS-2 SAR and PolSAR mapping technologies for monitoring and managing coastal ecosystem and responding to disasters | USA |
3358 | Naiara Pinto | NASA/Caltec Jet Propulsion Laboratory | Ingestion of ALOS/PALSAR2 by the Global Vegetation Continuous Fields Algorithm: SAR / Optical Fusion for Robust Forest Disturbance Mapping | USA |
[Priority Themes] Monitoring to predict natural disasters and to grasp its damage situations
2021年3月31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 | Vasit Sagan | 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 | Sun Yat-sen University | Exploring effects of fault bends on the seismic propagation from ALOS-1/2 SAR observations | China |
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 Small Baseline 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 | Waseda University | 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 |
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 | SATELLITE ANALYSIS FOR WILDFIRE BURNT AREA BY PALSAR-2 BASED ON FIRE RESIDUAL OBSERVATION OF BURNT TREES | 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 Chimitdorzhiev | 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 |
[Priority Themes] Civil Infrastructures monitoring
2021年3月31日現在
No. | Name | Organization | Reseach Title | Country |
---|---|---|---|---|
3137 | Hasanuddin Z. Abidin | Institute of Technology Bandung(ITB) | Monitoring Land Subsidence Along the North Coast of Java Island, Indonesia Using InSAR and GPS | Indonesia |
3160 | Rowena Lohman | Cornell University | Anthropogenic deformation and land cover properties in the Northeastern United States | USA |
3162 | Hatice Kubra CAGLAYAN | Tokyo Institute of Technology | Measurement of surface deformation in Istanbul city using interferometric Synthetic Aperture Radar (InSAR) and Time-series InSAR methods | Japan |
3179 | Kazuki Nakamura | Nihon University | Study on monitoring road bridges deterioration using SAR data | Japan |
3197 | Md Latifur Rahman Sarker | Faculty of Geoinformation and Real Estate, Universiti Teknologi Malaysia (UTM) | Monitoring Urban-Rural Surface Subsidence in Bangladesh due to Rapid-Urbanization and Over-Extraction of Underground Water using InSAR Technique | Malaysia |
3198 | Bing Yu | School of Civil Engineering and Architecture, Southwest Petroleum University | Monitoring Large Gradient Land Subsidence and Infrastructure Deformations by L-band SAR Interferometry | China |
3201 | Glenda Besana-Ostman | Bureau of Reclamation,Department of the Interior | Deformation Monitoring for Seminoe Dam with InSAR | USA |
3247 | Chaoying Zhao | Chang'an University | THE DETECTION AND MONITORING OF LANDSLIDES IN CHINA USING LONG-WAVELENGTH ALOS/PALSAR-2 SAR IMAGES BASED ON SAR/INSAR METHODS | China |
3266 | Cathleen E. Jones | Jet Propulsion Laboratory, California Institute of Technology | Subsidence in Coastal Areas and the Impact to Flood Protection Infrastructure | USA |
3299 | Marina A. Lebedeva | Institute of the Earth's Crust of Siberian Branch of Russian Academy of Sciences | Surface deformations on Baikal rift system and its surroundings; estimation using radar interferometry | Russia |
3318 | Juraj Papco | Slovak University of Technology in Bratislava | Continuous multi-band InSAR deformation monitoring by means of near real-time analysis: A case study in monitoring of underground gas storage facilities in Gajary-Baden and Velke Kapusany, Slovakia | Slovakia |
3375 | Changcheng Wang | Central South University | Multi-Dimensional Building Structure Model Reconstruction Based on Tomographic SAR Technique with PALSAR-2 Data | China |
Land Use & Land Cover Research
2021年3月31日現在
No. | Name | Organization | Reseach Title | Country |
---|---|---|---|---|
3040 | Dyah R. Panuju | Bogor Agricultural University | Land Cover Change Trajectory of Forest Fringes Based on ScanSAR and High Resolution Data | INDONESIA |
3059 | Andreas Braun | University of Tübingen | Combination of optical and L-band SAR images for the land-use classification and change detection around refugee camps | Germany |
3171 | Mi JIANG | Hohai University | Land Cover Mapping over Urban Areas with Rich Texture Using Multitemporal ALOS PALSAR-2 Datasets | China |
3175 | Hiroshi Kimura | Gifu University | Detection of small-scaled variations and changes | Japan |
3177 | Zheng-Shu Zhou | Commonwealth Scientific and Industrial Research Organisation (CSIRO) | Quantitative Forest Mapping and Deforestation Assessments in Australia, Indonesia and Kenya using Repeat-pass ALOS-2 Polarimetric Data | Australia |
3236 | Casey Ryan | University of Edinburgh | Mapping bush encroachment and woodland on a rainfall gradient in southern Africa | UK |
3307 | Avik Bhattacharya | Indian Institute of Technology | Classification of Urban Areas using Deep Leaning and PolSAR data | India |
3329 | Aaron Berg | University of Guelph | Soil Moisture and Freeze/Thaw Detection from L-band SAR | Canada |
3355 | Francois CAVAYAS | University of Montreal | Land use/cover change detection and map updating in metropolitan regions using SAR images and the Sigma0 software package: Use of ALOS images | Canada |
3398 | Hasi Bagan | Shanghai Normal University | COMBINATION OF PALSA-2 AND MULTISPECTRAL IMAGES FOR LAND COVER CLASSIFICATION | China |
Geology, Geography
2021年3月31日現在
No. | Name | Organization | Reseach Title | Country |
---|---|---|---|---|
3013 | Philippe Paillou | University of Bordeaux | Calibration and validation of BIOMASS orbital P-band SAR over arid regions | France |
3026 | Alberto Refice | Consiglio Nazionale delle Ricerche (CNR) | ALOS-2 data integration for monitoring of landscape degradation processes at catchment scale | Italy |
3034 | Tajdarul Hassan Syed | Indian School of Mines, Dhanbad | Satellite-based monitoring of Earth surface deformation caused by groundwater abstraction and subsurface coal fires in India | India |
3085 | Yuji MURAYAMA | University of Tsukuba | Geographical Studies of Urbanization and Driving Factors in Developing Countiries | Japan |
3090 | Frances Wiig | University of New South Wales | Using SAR to Identify and Map Subsurface Archaeological Features in Arid Environments | Australia |
3138 | Taejung Kim | INHA UNIVERSITY | Generation of high quality digital elevation models through matching of PALSAR-2 images and comoparison with digital elevation models from optical images (Phase II) | Korea |
3207 | Waqas A. Qazi | Institute of Space Technology | Analyzing Spatial Patterns of Subsidence in the Indus Delta through ALOS PALSAR Repeat-Pass Interferometry | Pakistan |
3216 | Alexander Zakharov | Fryazino branch of Kotel'nikov Institute of Radioengineering and Electronics, RAS | Detection of the Intermittent Flow Barriers in Petroleum Fields by Using ALOS-2 DInSAR data | Russia |
3217 | Hongdong Fan | China University of Mining and Technology | Monitoring the Large Deformation of the Mining Subsidence by ALOS-2 | China |
3353 | Samson Tesfaye | Lincoln University | InSAR measurements of magmatic and tectonic deformation in the Afar rift (East Africa) | USA |
Disaster and earthquake
2021年3月31日現在
No. | Name | Organization | Reseach Title | Country |
---|---|---|---|---|
3001 | Xiaogang Song | Institute of Geology, China Earthquake Administration (CEA) | Interseismic Strain Accumulation Across the Litang Fault Zone (Western Sichuan Province, China) from InSAR and GPS observation | China |
3005 | Estelle Chaussard | University of Oregon | Characterization of the deformation of emplaced volcanic deposits | USA |
3007 | Gidon Baer | Geological Survey of Israel | Analysis of ground deformation associated with recent induced seismicity in Oklahoma, US | Israel |
3010 | Yusupujiang Aimaiti | Chiba University | Land subsidence measurement in Karamay city Using ALOS/PALSAR data | Japan |
3011 | Feng Xu | Fudan University | Monitoring land cover changes using high resolution polarimetric interferometric SAR images | China |
3019 | Xianjie Zha | University of Science and Technology of China | Using the PALSAR and PALSAR-2 data to study the movement of the active faults in China | China |
3024 | Paul Lundgren | Jet Propulsion Laboratory, California Institute of Technology | Application of ALOS-2 InSAR to volcano deformation processes | USA |
3025 | Paul Lundgren | Jet Propulsion Laboratory, California Institute of Technology | Application of InSAR and GPS time series to S. California earthquake cycle deformation transients | USA |
3031 | Guijie Wang | China Institute of Geo-Environment Monitoring | InSAR-based early detection and monitoring on progressive regional landslides | China |
3035 | Masafumi Nakagawa | Shibaura Institute of Technology | Attribute Data Classification and Change Detection for Urban Data Revision and Sabo Facility Management using Temporal ALOS-2 and 3D Spatial Data | Japan |
3043 | Sandro Martinis | German Aerospace Center (DLR) | Advancing PolSAR methods for rapid mapping of floods, landslides, volcanoes and fires using polarimetric L-Band SAR data | Germany |
3046 | Feifei Qu | Chang’an University | Mapping and characterizing land deformation over the Gulf Coast using multi-temporal InSAR | China |
3048 | Caijun Xu | Wuhan University | Present-day deformation along the northern margin of the Tibet Plateau inferred from SAR interferometry | China |
3051 | Jingfa Zhang | China Earthquake Adminstration | Monitoring and seismic hazard assessing: Constraints from ALOS-2 Imagery | China |
3053 | Sreejith K M | Indian Space Research Organisation (ISRO) | Earthquake and Volcanic Deformation Studies Using L-Band SAR Interferometry | India |
3058 | Qiang Chen | Southwest Jiaotong University | Aftershocks monitoring and characterization after the Wenchuan earthquake in the Longmen Shan fault zone near the eastern margin of Tibetan Plateau with ALOS-2/PALSAR-2 Interferometry | China |
3061 | Simone Atzori | INGV (Italian Institute for Geophysics and Volcanology) | Man-induced stress and seismicity at the Pertusillo lake reservoir (Southern Italy) | Italy |
3062 | Steve D. Bowman | Utah Geological Survey | Continuation of Ground Surface Deforamtion using Interferometric Synthetic Aperature Radar (InSAR) Data in Southwestern Utah, USA | USA |
3065 | Carolina Pagli | University of Pisa | Monitoring and modeling magma movements at Changbaishan volcano, China | Italy |
3073 | Jian-Ping Chen | China University of Geosciences (Beijing) | Detection subsidence and environment variations by using Alos-2 images in Wulong valley mining areas and Tongling mining areas, P. R. China | China |
3074 | Yuji Himematsu | National Research Institute for Earth Science and Disaster Resilience (NIED) | Elucidating complex crustal deformation at the divergent plate boundary observed by satellite SAR | Japan |
3078 | Chisheng Wang | Shenzhen University | Compressive sensing of seismic slip model using space geodesy | China |
3081 | Michael Poland | U.S. Geological Survey | Volcano deformation in the northern Cascade Arc, USA | USA |
3083 | Michael Poland | U.S. Geological Survey | Magma supply, storage, and eruption at Hawaiian volcanoes | USA |
3084 | Jun Hu | Central South University | Estimating three-dimensional postseismic deformations and crustal strain tensors with ALOS-2 InSAR measurements | China |
3094 | Xiufeng He | Hohai University | Detect volume changes of confined aquifers based on long time series urban subsidence using ALOS data | China |
3099 | Tomohito Asaka | Nihon University | Relationship analysis between beach erosion and ground deformation in Japan | Japan |
3101 | Remy Dominique | Institut de recherche pour le Development IRD | Ground deformation monitoring and modeling of South-American volcanoes using satellite and ground based geodetic surveys | France |
3105 | Yinghui Yang | Southwest Petroleum University | Study on fault motion of seismic gap after Wenchuan and Lushan earthquakes by PS-InSAR technique | China |
3106 | Jun Sonoda | Institute of National College of Technology, Sendai College | Development of Searh Method for Huge Natural Disaster Using Spacebone and Ground Penatrating Composite Radar | Japan |
3114 | Jin Woo Kim | Southern Methodist University | Monitoring the landslides in the Western USA (Washington, northern California) with time-series InSAR analysis | USA |
3116 | Jin Woo Kim | Southern Methodist University | Sinkhole collapse in southern USA captured by time-series ALOS-2 PALSAR-2 InSAR processing | USA |
3123 | William Barnhart | University of Iowa | Evaluating and utilizing ALOS-2 InSAR products for international earthquake response at the USGS National Earthquake Information Center | USA |
3125 | Yongzhe Wang | Institute of Geophysics, China Earthquake Administration (CEA) | Locking Differences between Different Sections along Xiaojiang Fault Zone Revealed by InSAR Time series Analysis | China |
3128 | Masanobu Shimada | Tokyo Denki University | Development of landslide detection algorithm by using L-band SAR | Japan |
3134 | Xiaopeng Tong | University of Washington | Observations of inter-seismic deformation and landslides of the Southeast Tibet Plateau from L-band InSAR | USA |
3140 | Daniele Perissin | Purdue University | Monitoring of US Interstate Highways Stability Using ALOS PALSAR-2 | USA |
3142 | Chao Wang | Institute of Remote Sensing and Digital Earth(RADI), Chinese Academy of Sciences(CAS) | East China Land Subsidence Monitoring Using PALSAR-2 ScanSAR images | China |
3144 | Franz J. Meyer | University of Alaska Fairbanks | Analysis of Volcanic Activity And Post-Eruptive Deposits on the Kamchatka Peninsula Using PALSAR-2 | USA |
3146 | Ana Beatriz Cosenza Muralles | University of Wisconsin-Madison | Interferometric analysis of JERS-1, ALOS and ALOS-2 SAR data over active volcanoes in the Guatemalan part of the Central America Volcanic Arc CAVA, for constraining dynamic models of magmatic processes. | USA |
3147 | Zhong Lu | Southern Methodist University | Processing and modeling of ALOS-2 InSAR and GPS to derive source models to monitor volcanic hazards over the Aleutian arc | USA |
3150 | Motoyuki Sato | Tohoku Univesrity | Damage Evaluation and Investigation of Natural Disaster using Polarimetric SAR Data | Japan |
3154 | Gareth Funning | University of California, Riverside | Measuring fault creep and interseismic strain accumulation on the faults of Northern California | USA |
3157 | Lingyun Ji | China Earthquake Adminitration | Interseismic slip of the western Altyn Tagh Fault, Tibetan plateau, from InSAR | China |
3170 | Josaphat Tetuko SRI SUMANTYO | Chiba University | Land Deformation Monitoring using Persistent Scatterers Interferometric Synthetic Aperture Radar (PS-InSAR) | Japan |
3174 | Peng Li | Ocean University of China | COASTAL DEFORMATION MONITORING WITH INSAR TIME SERIES ANALYSIS | China |
3184 | Kerry Leith | ETH Zurich | Rock Slope Failure in Bhutan | Switzerland |
3187 | Jean-Luc FROGER | Observatoire de Physique du Globe de Clermont-Ferrand, Université Blaise Pascal | Monitoring Ground Surface Displacements at Piton de la Fournaise with PALSAR-2 | France |
3205 | Lujia FENG | Nanyang Technological University | Mapping active deformation of the Sumatran Fault | Singapore |
3206 | Benoit Taisne | Nanyang Technological University | Towards a better understanding of active volcanoes in Southeast Asia from PALSAR-2 and in-situ observations | Singapore |
3210 | Saygin Abdikan | Hacettepe University | Earth Surface Deformation Monitoring Using L-band Interferometric SAR data | Turkey |
3214 | Zhiwei Li | Central South University | InSAR Analysis of Surface Deformation over Permafrost to Estimate Active Layer Thickness (ALT) based on Heat Transfer Model and Layered Subsidence Model of Soils | China |
3223 | Francois Jouanne | University of Savoie Mont Blanc | Insights into creep and interseismic deformation along El Pilar and Central Range Fault active strike-slip faults from D-INSAR. | France |
3225 | Raphael GRANDIN | Institut de Physique du Globe de Paris (IPGP) - CNRS | InSAR Monitoring of French Overseas volcanoes (Lesser Antilles, Mayotte) | France |
3226 | Mudau Naledzani Audrey | SANSA Earth Observation | Towards development of South African Early-Warning System for Sinkholes and Surface Subsidence (SAES4) | South Africa |
3232 | Xiaoli DING | The Hong Kong Polytechnic University | Applying PALSAR-2 Datasets to Geo-Hazards Monitoring in Southern China | China |
3240 | Eric O. Lindsey | Nanyang Technological University | Mapping tectonic deformation in Myanmar: deciphering the Burma sliver | Singapore |
3243 | Wen LIU | Chiba University | Extraction of ground movements based on InSAR analysis of PALSAR-2 data | Japan |
3245 | Virginie Pinel | ISTerre | Improving monitoring of New Hebrides volcanoes with high resolution interferometry using ALOS-2 data. | FRANCE |
3246 | CHEN Yanling | Shanghai Astronomical Observatory,Chinese Academy of Scienses | Determination of 3D displacement and groundwater storage change in the Yangtze Delta by integrating ALOS-2 PALSAR and GPS data | China |
3248 | Mingsheng Liao | Wuhan University | Characterization of Landslide movements by exploiting both amplitude and phase information of PALSAR-1/2 datasets | China |
3259 | Jicang Wu | Tongji University | Extraction of Crustal deformation by using DInSAR of PALSAR-2 ScanSAR images at the eastern margin of Tibet Plateau | China |
3273 | ZHEN LIU | Jet Propulsion Laboratory, California Institute of Technology | Mapping crustal deformation and earthquake hazard in the central San Andreas Fault system, California using L-band ALOS data | USA |
3276 | Takeshi Sagiya | Nagoya University | Evaluation of seismogenic potential of the northern Andes in Colombia based on geodetic data | Japan |
3277 | Eric J. Fielding | Jet Propulsion Laboratory, California Institute of Technology | Environmental controls on landslide motion revealed by InSAR with ALOS-2 data | USA |
3278 | Eric J. Fielding | Jet Propulsion Laboratory, California Institute of Technology | Integrated Imaging for Fault Slip of Large Earthquakes with ALOS-2 data | USA |
3280 | Yang Chengsheng | Chang'an University | Ground fissure disaster monitoring with ALOS-2/PALSAR images over Hebei, China | China |
3281 | ZHEN LIU | Jet Propulsion Laboratory, California Institute of Technology | Earthquake Cycle Strain Accumulation and Volcanic Deformation and Hazards in Costa Rica using ALOS-2 data | USA |
3289 | Taku Ozawa | National Research Institute for Earth Science and Disaster Prevention | Research on volcano deformation monitoring using PALSAR-2 and ground-based radar interferometer | Japan |
3308 | Salvatore Stramondo | Istituto Nazionale di Geofisica e Vulcanologia (INGV) | Studying the impact of ground deformation on civil infrastructures | Italy |
3311 | Roland Burgmann | University of California, Berkeley | ALOS-2 InSAR Imaging of Natural Hazards in Northern California | USA |
3314 | Sun-Lin Chung | National Taiwan University | Monitoring of seismogenic faults and volcanism in Caucasus-Zagros orogenic belt | Taiwan |
3319 | Qiming Zeng | Peking University | Methods of seismic building collapse extraction with multi-mode and multi- polarization ALOS SAR data | China |
3328 | Pathier Erwan | University Grenoble Alpes | ALOS-2/SENTINEL-1 InSAR time-series analysis to study earthquake cycle in the Mexican subduction zone | France |
3333 | Anke Friedrich | Ludwig-Maximilians-University Munich | Utilizing SAR data to study complex topography and distributed deformation in mountainous regions and foreland basin settings - Alps, Europe | Germany |
3341 | William Barnhart | University of Iowa | Imaging human-induced deformation from oil and gas production with ALOS-2 imagery | USA |
3359 | Sang-Ho Yun | NASA Jet Propulsion Laboratory | Imaging magma intrusion with joint inversion of seismicity and geodetic observations | USA |
3360 | Sang-Ho Yun | NASA Jet Propulsion Laboratory | Rapid Production of Damage Proxy Map for Disaster Response | USA |
3361 | Zhang Qin | Chang'an University | Large coverage landslide detecting and monitoring with ALOS-2/PALSAR images over Chongqing, China | China |
3378 | Mohd Abdul Qadir Khan | North Eastern Space Applications Centre(NESAC), | Surface deformation studies in Eastern Shillong Plateau using SAR Interferometry and high precision geodetic GPS data | India |
3381 | Lei Zhang | The University of Hong Kong | Retrieval of interseismic displacement in coastal zones from multi-temporal PALSAR measurements | Hong Kong |
3382 | Andrew Ford | Bournemouth University | Monitoring mass-movement hazards on the Jurassic Coast World Heritage Site using L-band speckle tracking InSAR | UK |
3390 | Jiankun He | Institute of Tibetan Plateau Research, Chinese Academy of Sciences | Inter-, co- and post-seismic displacement monitoring for the Ludian Earthquake's (Ms 6.5) in Northeast Yunnan, China: Implications for Chuan-Dian Block's eastward expansion and crustal rheology property | China |
3391 | Sylvain Barbot | Nanyang Technological University | Postseismic deformation following the 2015 Mw7.8 Gorkha earthquake, Nepal | Singapore |
3393 | Liu Guang | Institute of Remote Sensing and Digital Earth(RADI), Chinese Academy of Sciences | Monitoring land surface movement over rugged mountain area utilize time series SAR interferometry | China |
3400 | Ana Paula Martins Falcao Flor | Instituto Superior Tecnico - Universidade de Lisboa | Slope Instability Assessment for the Neighborhood of Water Reservoirs | Portugal |
Agriculture
2021年3月31日現在
No. | Name | Organization | Reseach Title | Country |
---|---|---|---|---|
3023 | Nicolas Baghdadi | French institute of sceince and technology for environment and agriculture "Irstea" | Soil moisture retrieval and mapping irrigated areas over agricultural areas using ALOS-2/PALSAR | France |
3045 | Rahul Nigam | Space applications Centre (ISRO) | Determination of crop phenological stages using L-band polarimetric SAR data | India |
3054 | YONEZAWA Chinatsu | Tohoku University | Investigation of possibility for utilization of ALOS PALSAR-2 data to precision agriculture | Japan |
3093 | Dharmendra Singh | Indian Institute of Technology Roorkee | Development of an adaptive algorithm for crop parameters retrieval by utilizing polarimetric data for regional conservation purposes | India |
3141 | Jinfei Wang | The University of Western Ontario | Surface and Biophysical Parameter Retrieval over Agricultural Fields Using Fully Polarimetric L-band ALOS-2 Data | Canada |
3230 | Yasser Maghsoudi | Geomatics Eng. Faculty, K. N. Toosi University of Technology | Agriculture Crops Identification Using Optimum Degree of Polarization and Feature Selection | Iran |
3288 | Hiroshi Tani | Hokkaido University | Extracting agricultural crop information from SAR data | Japan |
3325 | Matias Barber | Institute of Astronomy and Space Physics IAFE | Assessment of SAR polarimetry for crop monitoring in the Argentinean Pampas Plain | Argentina |
3331 | Rishi Prakash | Graphic Era University, Dehradun, Uttarakhand, India | Development of Soil Moisture Monitoring System for Agriculture Land Situated in Indo-Gangetic Plain | India |
3340 | Jansle Vieira Rocha | College of Agricultural Engineering (FEAGRI) - Unicamp | Sugarcane growth and yield monitoring through the integrative use of ALOS-2, Sentinel-1 and Landsat-8 data in Sao Paulo state, Brazil | Brazil |
3397 | Abdul Rashid bin Mohamed Shariff | University of Putra Malaysia (UPM) | Advance SAR Technologies Observation on Rice Growth Monitoring and Yield Estimation in Kuala Selangor, Malaysia | Malaysia |
3404 | JIALI SHANG | AGRICULTURE AND AGRI-FOOD CANADA | Monitoring and Reporting of Crop Growth Condition and Harvest Status Using Multi-Frequency SAR Data in Canada | CANADA |
Snow and Ice
2021年3月31日現在
No. | Name | Organization | Reseach Title | Country |
---|---|---|---|---|
3016 | Tazio Strozzi | Gamma Remote Sensing | Ice surface displacement of glaciers and ice caps from ALOS-2/PALSAR-2 | Switzerland |
3018 | Vladimir Elsakov | Institute of Biology Komi Science Centre of Ural Department of Russian academy of science(IB KomiSC UrD RAS) | D-InSAR technology for seasonal and interannual changes analysis of permafrost zone in longitudinal gradients of North Eurasia Arctic | Russia |
3021 | Masato Furuya | Hokkaido University | Spatial and temporal variations of surge-type glaciers in Alaska/Yukon | Japan |
3029 | Juha Karvonen | Finnish Meteorological Institute (FMI) | Improved Sea Ice Parameter Estimation with L-Band SAR (ISIPELS) | Finland |
3050 | Masato Furuya | Hokkaido University | Temporal evolution of flow velocities and structures of Patagonian Icefield revealed by SAR | Japan |
3060 | Lars Kaleschke | University of Hamburg | Characterizing subpixel-scale sea ice heterogeneity for an improved sea ice thickness retrieval from L-band passive microwave sensors | Germany |
3067 | Matthias Braun | University of Erlangen-Nuremberg | Glacier monitoring in High Asia | Germany |
3077 | Lin Liu | The Chinese University of Hong Kong | Investigating Thermokarst Dynamics on the Qinghai-Tibet Plateau Using PALSAR-1 and PALSAR-2 Data | Hong Kong |
3119 | Xiaoli Ding | The Hong Kong Polytechnic University | Applying PALSAR data for mapping and monitoring mountain glaciers over the Qinghai-Tibet Plateau | China |
3224 | LI Jia | Central South University | Derive the precise 3D motion field of mountain glaciers and build the functional model between motion changes and mass balance | China |
3227 | Anna Wendleder | German Aerospace Center (DLR) | RADAR Backscattering Measurements for Snow Mapping and Monitoring | Germany |
3264 | Richard R. Forster | University of Utah | Monitoring glacier ice dynamics and assessment of velocity variability in the Himalaya-Karakorum using PALSAR-2 | USA |
3282 | Takatoshi Yasuda | Hokkaido University | A Comprehensive Study of Spatial and Temporal Variation in Glacier Flow around High Mountain Asia Based on Satellite Remote Sensing | Japan |
3296 | Giuseppe Parrella | German Aerospace Center (DLR) | CryO-PolInSAR: Cryospheric Observations with L-band Polarimetric and Interferometric ALOS-2 SAR Data | Germany |
3379 | Aikebaier Maitiniyazi | Center for Environmental Remote Sensing (CEReS), Chiba University, Japan | Glacier changes in the source region of Kaidu River and its impacts on basin hydrology in Bosten lake Area, China | Japan |
3385 | Andrew Ford | Bournemouth University | The spatio-temporal variability of the submergent velocity of glacier ice using 3D InSAR at L-band | UK |
Vegetation, forestry and wetland
2021年3月31日現在
No. | Name | Organization | Reseach Title | Country |
---|---|---|---|---|
3003 | Hannes Raggam | JOANNEUM RESEARCH Forschungsgesellschaft mbH | Multi-frequency SAR time series analysis for tropical forest inventory | Austria |
3004 | Bambang H. Trisasongko | Bogor Agricultural University | Monitoring Tropical Plantation and Forest Rehabilitation Using L-band SAR | Indonesia |
3017 | Anup Kumar Das | Space applications Centre(ISRO) | Vegetation scattering characterization and forest above-ground biomass retrieval over Forest-PLUS sites in India using L-band SAR data | India |
3036 | Johannes Reiche | Wageningen University | Combining L-band SAR and optical remote sensing time series with community-based activity data for tropical forest monitoring | The Netherlands |
3080 | Lim Hwee San | Universiti Sains Malaysia(USM) | Identification, classification and mapping of mangrove species by using remote sensing data | Malaysia |
3087 | Marcel Urban | Friedrich-Schiller-University of Jena (FSU JENA) | Using ALOS-2 PALSAR-2 imagery for mapping biomass and biodiversity changes within the framework of the ESA GlobBiomass, ARS AfricaE as well as the EU H2020 projects BACI(Towards a Biosphere Atmosphere Change Index) projects and SWOS(Satellite based Wetland Observation Service). | Germany |
3092 | Aleksey Dmitriev | Institute of Physical Material Science of the Siberian Branch of the RAS (IPMS SB RAS) | Polarization signature development of radar backscattering variations for azimuthal anisotropy estimation of forest by PALSAR-1 and PALSAR-2 data | Russia |
3100 | Maurizio Santoro | GAMMA Remote Sensing AG | Assessing forest aboveground biomass retrievals by synergy of spaceborne SAR and GNSS-R signals | Switzerland |
3115 | Jin Woo Kim | Southern Methodist University | Characterizing wetland hydrology of Great Dismal Swamp using ALOS-2 SAR/InSAR technology | USA |
3120 | Laura Bourgeau-Chavez | Michigan Technological University | Monitoring wetlands with multi-season PALSAR-2 Imagery | USA |
3148 | Rajesh Bahadur Thapa | International Center for Integrated Mountain Development(ICIMOD) | Improving aboveground forest carbon stocks estimation method using ALOS 2/PALSAR-2 data. | Nepal |
3176 | Björn Waske | University Osnabruck | Mapping deforestation and forest degradation in Brazilian Amazon using ALOS-2 data | Germany |
3181 | Hitendra Padalia | Indian Institute of Remote Sensing | Quantification of Western Himalayan Foothills Forest Biomass Spatial Variability and Disturbance using Pol-INSAR | India |
3190 | Joao Carreiras | University of Sheffield | The role of L-band SAR and LiDAR data to map forest aboveground biomass in Malaysian Borneo | United Kingdom |
3192 | Joao Carreiras | University of Sheffield | Combining multi-frequency radar data to assess tropical forest degradation | United Kingdom |
3204 | Robert Treuhaft | Jet Propulsion Laboratory, California Institute of Technology(Caltech) | Tropical Forest Structure and Biomass from L-band, Repeat-Track Interferometric SAR from PALSAR-2 | USA |
3208 | Shoko Kobayashi | Tamagawa University | Analysis of polarimetric SAR data for forest biomass estimation and biodiversity evaluation in fast-growing tree plantation | Japan |
3218 | Katarzyna Dabrowska-Zielinska | Institute of Geodesy and Cartography | Assessment of soil moisture and productivity of grasslands and crops using PALSAR-2 data | Poland |
3219 | Natalia Soledad Morandeira | Universidad Nacional de San Martin (UNSAM) | Polarimetric SAR data contribution to mapping and monitoring Parana floodplain wetlands | Argentina |
3229 | Yasser Maghsoudi | Geomatics Eng. Faculty, K.N.Toosi University of Technology | Forest Biomass Estimation in Hyrcanian Ecological Regions of Iran | Iran |
3234 | Wenjian Ni | Chinese Academy of Sciences | Algorithm development for the forest aboveground biomass mapping using data fusion of PALSAR/ PALSAR-2 InSAR and PRISM data | China |
3258 | Andreas Schmitt | Munich University of Applied Sciences | Evaluating potential applications of polarimetric L-band SAR data over European temperate forests | Germany |
3260 | Achim Roth | German Aerospace Center (DLR) | Evaluating the potential of multi-frequency SAR for wetland monitoring | Germany |
3268 | Heiko Balzter | University of Leicester, National Centre for Earth Observation (NCEO) | ALOS-2 PALSAR estimation of tropical forest structures with high-resolution validation from handheld laser-scanning ground surveys. | U.K. |
3269 | Shimon Wdowinski | University of Miami | Space-based monitoring of wetlands and flooded areas with ALOS-2 observations | USA |
3295 | Liudmila Zakharova | Kotel'nikov Institute of Radioengineering and Electronics, RAS, Fryazino branch | Polarimetric and Interferometric study of annual changes in temperate and boreal forests | Russia |
3302 | Kevin Tansey | University of Leicester | Mexico GlobBiomass Regional Mapping | UK |
3317 | Agata Hoscilo | Institute of Geodesy and Cartography (IGiK) | Estimation of forest above ground biomass over Poland | Poland |
3330 | Akira Kato | Chiba University | Development of Monitoring Technique for Forest Disaster | Japan |
3342 | Preethi Malur Balaji | University College Cork | Characterization and Monitoring of Forest Disturbances in Ireland from Active Microwave Satellite Platforms | Ireland |
3356 | Guoqing Sun | University of Maryland | Forest Structure and Changes from L-band PolSAR and PolInSAR data | USA |
3362 | Marc Simard | Jet Propulsion Laboratory, California Institute of Technology | 3D Mapping and Monitoring of Canopy Structure in Changing Ecosystems | USA |
3368 | C.K. Shum | The Ohio State University | Tibetan Plateau Cryospheric-hydrologic Processes and Downstream Bangladesh Delta Coastal Vulnerability | USA |
3372 | Michael W. Eichholz | Southern Illinois University -Carbondale | FUSING PALSAR-2, SENTINEL-1 TO ESTIMATE THE AVAILABLE WETLAND HABITAT FOR WETLAND-DEPENDENT AVIFAUNA MIGRATING THROUGH AND NESTING IN ILLINOIS: PRELIMINARY FINDINGS | USA |
3374 | Kazuo Watanabe | Research Institute for Humanity and Nature | Detection of Spatial and Temporal Dynamics of Forest Fire in Peat Land | Japan |
3386 | Ayobami Taofeek SALAMI | Obafemi Awolowo University | Mapping Aboveground Biomass with ALOS PALSAR 2, Field Measurements and UAV-Based Photogrammetric Point Clouds - Tree Stem Mapping and Uncertainties Estimates in Omo – Shaha – Oluwa Forest Reserves, Southwestern Nigeria | Nigeria |
3394 | Sassan Saatchi | University of California, Los Angeles | Monitoring Tropical Forest Structure and Canopy Cover Changes using ALOS-2 Data in Central Africa | USA |
Hydrology
2021年3月31日現在
No. | Name | Organization | Reseach Title | Country |
---|---|---|---|---|
3038 | Howard Zebker | Stanford University | Using PALSAR-2 InSAR for the study of groundwater hydrology in California Colorado | USA |
3069 | Hyongki Lee | University of Houston | Quantifying Terrestrial Water Dynamics in the Congo Basin using PALSAR/PALSAR-2 SAR and InSAR | USA |
3131 | Magaly Koch | Boston University | ALOS-2 Applications for Water Resources Development in Arid Lands and Water-Related Geohazards in Coastal Tropical Lands | USA |
3193 | Masanobu Shimada | Tokyo Denki University | Monitoring of small scale soil moisture dynamics using very high-resolution ALOS-2 PolSAR data | Japan |
3221 | ZHEN LIU | Jet Propulsion Laboratory, California Institute of Technology | Groundwater monitoring with L-band ALOS interferometric data | USA |
3256 | Wolfgang Korres | University of Cologne | Retrieval and analysis of surface soil moisture patterns, biomass and soil surface roughness information in agricultural landscapes using polarimetric radar | Germany |
3290 | Jorge Leon | The Nature Conservancy | Ecosystem Services Monitoring and Modeling in Major Supplying Watersheds of Latin America using ALOS PALSAR Data | USA |
3291 | Catherine Ticehurst | CSIRO | Using L-band SAR to improve the mapping and monitoring of surface water and assisting land suitability analysis in northern Australia | Australia |
3306 | Jun MAGOME | University of Yamanashi | Monitoring and analysis of land subsidence for Asian urban area using InSAR derived from ALOS-2/PALSAR-2 | Japan |
3322 | Jun Asanuma | University of Tsukuba | PALSAR2-derived Soil Moisture and Freeze/Thaw State for Improved Soil Simulation at Northen Agricultural Lands | Japan |
3343 | Mercedes Salvia | Instituto de Astronomia y Fisica del Espacio, (Institute for Astronomy and Space Physics, IAFE, CONICET-UBA) | Satellite estimation of flooded area and river water level dynamics: development of multisensor strategies. | Argentina |
3363 | Nan Ye | Monash University | Near surface soil moisture estimation from PALSAR-2 over Murrumbidgee River Catchment | Australia |
3373 | Claudia Notarnicola | European Academy (EURAC) | ALIS: ALOS-2 based monitoring of soil moisture in agricultural areas of Argentina, Italy and Japan | Italy |
Oceanography and coastal zone
2021年3月31日現在
No. | Name | Organization | Reseach Title | Country |
---|---|---|---|---|
3047 | Ratheesh Ramakrishnan | Space Applications Centre-ISRO | Applications of ALOS PALSAR in understanding coastal erosion processes through studying nearshore dynamics and coastal subsidence | India |
3064 | Maurizio Migliaccio | Dipartimento Di Ingegneria,Universita Di Napoli Parthenope | SAR polarimetry for ocean and coastal zones monitoring | Italy |
3072 | Leonid M. Mitnik | V.I. Il'ichev Pacific Oceanological Institute FEB RAS | Oceanic dynamic phenomena and sea ice study in the Northwest Pacific Ocean and in the Eastern Arctic using L-band and C-band SAR and ancillary data | Russia |
3130 | Teruhisa KOMATSU | Japan Fisheries Resource Conservation Association | Monitoring ecosystems and aquacultures along the coast from Japan to Southeast Asia with use of PALSAR-2 | Japan |
3199 | Martin Gade | Universität Hamburg | Indonesian Seas Oil Pollution Seen by Spaceborne SAR (IndoSOPS3) | Germany |
3200 | Martin Gade | Universität Hamburg | Using PALSAR-2 and other SAR for Classification and Intertidal Flat Monitoring (UPSCIM) | Germany |
3239 | Ho Dinh Duan | Hochiminh City Institute of Physics | Application of ALOS-2 for estimating coastal wave in Vietnam | Vietnam |
3272 | Marc Thibeault | CONAE | Development of sea surface wind detection technique and oil spill classification | Argentina |
3297 | Carlo Alberto Brunori | Istituto Nazionale di Geofisica e Vulcanologia (INGV) | Analysis of ground deformations detected by SAR data in Calabrian coastal areas (Southern Italy) and its possible relationship with civil infrastructures and beach erosion | Italy |
3338 | Fabio Del Frate | Tor Vergata University | Neural Network architectures for the development of automatic processing procedures in the field of maritime applications using ALOS-2 data | Italy |
Polar Research
2021年3月31日現在
No. | Name | Organization | Reseach Title | Country |
---|---|---|---|---|
3049 | Kazuki Nakamura | Nihon University | Study on ice mass balance estimation along the East Antarctic coast | Japan |
3143 | Bernd Scheuchl | University of California, Irvine | Ice Velocity Mapping in the Antarctic Peninsula | USA |
3155 | Jeremie Mouginot | University of California Irvine | Ice velocity and grounding line mapping of the Amundsen Sea Sector, West Antarctica | USA |
3238 | Jung-Rack Kim | University of Seoul | Investigating the correlation between subglacial melt water flow and glacier migration by the SAR image interpretations and the numerical simulations | Korea |
3274 | Go Iwahana | University of Alaska Fairbanks | Evaluation and validation of permafrost degradation obtained by L-band SAR data | USA |
3275 | Xin Li | University of California, Irvine | Ice velocity and grounding line of Totten Glacier, East Antarctica | USA |
3298 | Koichiro Doi | National Institute of Polar Research | High accuracy measurement of the ice flow velocity on the coastal East Antarctic ice sheet | Japan |
3332 | ZHOU Chunxia | Wuhan University | Mapping topography and ice-flow velocity in Antarctica | China |
3345 | Thomas L. Ainsworth | US Naval Research Laboratory | Sea Ice Characterization and Wave-Ice Interactions near the Arctic Marginal Ice Zone | USA |
3348 | Randy Scharien | University of Victoria | Arctic sea ice type discrimination during summer melting conditions | Canada |
3352 | Eric Rignot | Jet Propulsion Laboratory | ALOS PALSAR studies of NorthEast Greenland | USA |
3395 | Igor Kozlov | Russian State Hydrometeorological University (RSHU) | PALSAR-2 imaging for sub- and mesoscale dynamics in the Arctic Ocean | Russia |
Polarimetry and interferometry, Ionosphere research
2021年3月31日現在
No. | Name | Organization | Reseach Title | Country |
---|---|---|---|---|
3009 | Francesco De Zan | German Aerospace Center (DLR) | Study of complex decorrelation phenomena in L-band and development of adequate processing methodologies in view of future spaceborne systems | Germany |
3014 | Junichi Susaki | Kyoto University | Production of urban density change and land subsidence maps using PALSAR/PALSAR-2 | Japan |
3022 | Hiroyoshi Yamada | Niigata University | Study on estimation accuracy improvement of Scattering Component Decomposition of POLSAR data by using ALOS2 repeat-pass observation dataset | Japan |
3039 | Howard Zebker | Stanford University | Properties and optimization of Persistent Scatterer InSAR for Long Wavelength Radar Systems | USA |
3044 | Ryo Natsuaki | The University of Tokyo | Enhancement of the Accurate Topography and Deformation Detection For PALSAR-2 SAR Interferometry by Use of Disturbance Detection | Japan |
3052 | Manabu Hashimoto | Kyoto University | Detection of slow movements of ground around active faults with InSAR time series analysis | Japan |
3056 | Gulab Singh | Indian Institute of Technology Bombay | Study on Spatio-Diversity of Snowpack Characteristics in Himalayan Climates using Full-PolSAR and PolInSAR Techniques | India |
3079 | Yoshio Yamaguchi | Niigata University | Web archive of ALOS-2 PALSAR polarimetric data for utilization and monitoring the earth surface | Japan |
3086 | Nazemeh Ashrafianfar | Clausthal University of Technology | Monitoring of mining induced land subsidence -Differential SAR Interferomety and Persistent Scatterer Interferometry- in Russia’s Perm Region (Berezniki and Solikamsk) using PALSAR-2 data | Germany |
3110 | Giovanni NICO | Consiglio Nazionale delle Ricerche (CNR) – Italy’s National Research Council | Disentangle troposphere, ionosphere and soil moisture contributuions to SAR interferometry phase | Italy |
3126 | Takashi Nonaka | Nihon University | Temporal analysis of ALOS and ALOS-2 data for monitoring the urban enviroment | Japan |
3164 | Peng Liu | Southern University of Science and Technology | Topography removal and phase unwrapping in building dense area based on DSM | CHINA |
3169 | Shradha Mohanty | Indian Institute of Technology Bombay | Mitigation of the ionosphere effects in low frequency POLSAR measurements for monitoring geo-bio-environment | India |
3186 | Fumitaka Ogushi | Harris Geospatial Solutions K.K. | Improvement of the accuracy of the Interferometric Stacking with ALOS-2 PALSAR-2 data around Chiba Prefecture in Japan | Japan |
3203 | Scott Hensley | Jet Propulsion Laboratory, California Institute of Technology | Polarimetric-Interferometric Investigations at Barro Colorado Nature Monument, Panama,Traunstein, Germany and Gabon, Africa | USA |
3304 | Bo Hu | The Chinese University of Hong Kong | Ionospheric Effects in Interferometric Synthetic Aperture Radar (InSAR) in Low-latitude Area | China |
3321 | Qiming Zeng | Peking University | Deformation Study on Altyn Tagh Fault Based on a Modified InSAR Time Series Analysis Method | CHINA |
3323 | Jun Su Kim | German Aerospace Center (DLR) | Monitoring of Regional Scale Ionospheric Structures and Dynamics Using SAR | Germany |
3327 | Fang SHANG | The University of Electro-Communications | Interpretation of Polarimetric Synthetic Aperture Radar data: high-efficient alrgorithm for information extraction and intelligence algorithm for target analysis | Japan |
3349 | Ridha Touzi | Canada Centre for Remote Sensing (CCMEO) | Investigation of Polarimetric-interferometric ALOS2 for peatland and permafrost monitoring | Canada |
3380 | Zhang Bochen | The Hong Kong Polytechnic University | Measurement and correction of ionospheric artifacts in L-band SAR interferometry for environment and disaster monitoring | China |
3384 | Andrew Ford | Bournemouth University | Sub-surface archaeological prospection in arid regions with L-band Spotlight mode | UK |
3407 | Sang-Wan Kim | Sejong University | Landslide Monitoring at Vegetated Areas Using L-band SqueeSAR Interferometry | Korea |
Resources related research, Education, Others
2021年3月31日現在
No. | Name | Organization | Reseach Title | Country |
---|---|---|---|---|
3015 | Tobias Ullmann | University of Wuerzburg | High Resolution L-Band Observation of Archaeological Sites | Germany |
3244 | Vinay Kumar | Indian Institute of Remote Sensing | Scatterer Based Deformation Monitoring Induced due to Opencast & Underground Coal Mining By DInSAR & PolSAR Techniques | INDIA |
3377 | Hiroshi KOIZUMI | Miyagi Prefectural Tagajo High School | The development of teaching materials in disaster preventive education and disaster mitigative education that utilize remote sensing. | Japan |
3388 | Mattia Giovanni Crespi | University of Rome 'La Sapienza' | Stereo Open Source SAR (SOS-SAR) | Italy |