研究公募
第2回地球観測研究公募 ALOS系 PIメンバーリスト
Category:ALOS-2
2022年3月31日現在
No. | Name | Organization | Research Title | Country |
---|---|---|---|---|
001 | Yohei Kinoshita | University of Tsukuba | Studies for improving InSAR atmospheric delay correction methods in terms of both ionospheric and neural atmospheric delays | Japan |
002 | Elske de Zeeuw-van Dalfsen | TU Delft | Detection of surface deformation in the Lesser Antilles using ALOS-2 | Netherlands |
003 | Paul Lundgren | California Institute of Technology | ALOS-2 InSAR analysis of Southern California surface deformation processes | USA |
004 | Josaphat Tetuko Sri Sumantyo | Chiba University | Urban Environmental Monitoring using PolSAR and PS-InSAR | Japan |
005 | Zhen Liu | California Institute of Technology | Crustal deformation and fault mechanics in central California using ALOS-2 data | USA |
006 | Yunung Nina Lin | Academia Sinica | Determining landslide parameters and locations with seismic network and SAR monitoring | Taiwan |
007 | Paul Lundgren | California Institute of Technology | Application of ALOS-2 InSAR to active volcanoes | USA |
008 | Lu Zhang | Wuhan University | Using ALOS-2 data to detect and monitor instability of bank slopes for mega hydropower projects in southwest China | China |
009 | Junichi Susaki | Kyoto University | Estimation of 3-D displacement and its accuracy of airports and dike by using satellite SAR images and GPS data | Japan |
010 | Emma M Hill | Nanyang Technological University | Mapping subsidence and relative sea-level change for decision support and hazards planning in South and Southeast Asia | Singapore |
011 | Pakhrur Razi | The State University of Padang | Strain accumulation monitoring on Sumatra and Java megathrust zone using ALOS-2 for prediction the potential earthquake and tsunami | Indonesia |
012 | Zhaohua Chen | Environment and Climate Change Canada | Monitoring of Arctic coastal landscape change | Canada |
013 | Torbjorn Eltoft | UiT the Arctic Univeristy of Norway | Advancing information extraction on Arctic sea ice and glaciers using a multi-sensor and multi-temporal integrated approach | Norway |
014 | Go Iwahana | International Arctic Research Center, University of Alaska | Assessing thermokarst and freeze/thaw damages on land use and infrastructure in arctic and alpine permafrost regions | USA |
015 | Xiaohua Xu | University of California San Diego | Moment and Strain Accumulation Rate along the San Andreas Fault System from InSAR and GPS | USA |
016 | Wenbin Xu | Central South University | Simultaneous co and postseismic slip inversion using ALOS-2 and Sentinel-1 data with applications to large magnitude thrust earthquakes | China |
017 | Eric Ostrom Lindsey | The University of New Mexico | Mapping large-scale tectonic deformation across Southeast Asia with ALOS-2 timeseries analysis | Singapore |
018 | Yanan Du | Guangzhou University | Time series deformation monitoring of solid waste landfills using ALOS1/2 images | China |
019 | Alok Bhardwaj | Indian Institute of Technology, Roorkee | Estimation of flood extents in South and Southeast Asia using ALOS-2 SAR data | India |
020 | Lu Zhang | Wuhan University | Deformation Characteristics Monitoring of Long-span Bridges Combined Using ALOS-2 and other SAR data stacks | China |
021 | Erwan Pathier | Univ. Grenoble Alpes | Source separation in INSAR time-series analysis with application to large-scale ground deformation related to earthquake cycle | France |
022 | Zhen Liu | California Institute of Technology | Remote sensing groundwater processes using ALOS-2 interferometry | USA |
023 | Sang-Ho Yun | NASA Jet Propulsion Laboratory | Rapid Flood Mapping with Spaceborne SAR Data | USA |
024 | Paul Siqueira | University of Massachusetts | Sensitivity of Vegetation and Agriculture Physical Characterization to Repeat-Pass ALOS-2 PolInSAR Observations | USA |
025 | Xiaogang Song | Institute of Geology, China Earthquake Administration | A fine deformation velocity across the Lijiang-Xiaojinhe fault in southwestern China inverted jointly from InSAR and GPS observation | China |
026 | Tomohiro Narumi | SHIMIZU CORPORATION | Soil moisture monitoring for infrastructure construction and maintenance | Japan |
027 | Qiang Chen | Southwest Jiaotong University | Monitoring of surface deformation and seismicity on eastern edge of Tibetan Plateau after three strong earthquakes using ALOS-2/PALSAR-2 imagery data | China |
028 | Yo Fukushima | Tohoku University | Deciphering aseismic fault processes using InSAR time series analysis of ALOS-2 data | Japan |
029 | Rino Salman | Nanyang Technological University | Inferring the Earthquake Cycle in the Nepal Himalayas through Space Geodesy | Singapore |
030 | Chao Wang | Aerospace Information Research Institute, Chinese Academy of Sciences | Permafrost Deformation Dynamics in the Northern Tibet from ALOS-2 | China |
031 | Jun Hu | Central South University | Extracting three-dimensional deformations of landslides based on ALOS-2 and ground-based SAR data | China |
032 | Leif Eriksson | Chalmers University of Technology | Improved sea ice monitoring using L-band SAR | Sweden |
033 | Matthew Pritchard | Cornell University | Unique application of L-band InSAR with ALOS-2 for studying high hazard and vegetated volcanoes in the southern Andes | USA |
034 | Mi Jiang | Hohai University | Application of Time Series PALSAR-2 Dataset to Deformation Monitoring in Southern China | China |
035 | Guoxiang Liu | Southwest Jiaotong University | Monitoring the Deformations of Salt Layer in the Central Plateau of Iran by ALOS-2/PALSAR-2 InSAR | China |
036 | Rafael Almeida | Yachay Tech University | Constraining the location and kinematics of the Interandean Fault Zone in Ecuador | Ecuador |
037 | Laura L. Bourgeau-Chavez | Michigan Technological University | Application of ALOS-2 for Fire Danger Assessment in the North American Boreal and Arctic Regions | USA |
038 | Guangcai Feng | Central South University | The characteristics and evolution of surface deformation induced by agricultural irrigation in the Junggar Basin from the InSAR measurement | China |
039 | Joong-Sun Won | Yonsei University | ALOS PALSAR Interferometry for the Study of Surface Displacement in Urban Area | Korea |
040 | Xiaoli Ding | The Hong Kong Polytechnic University | Monitoring of magmatic deformation over western Galapagos volcanoes with multi-temporal ALOS-2 data | China |
041 | Fernando Espirito-Santo | University of Leicester, National Centre for Earth Observation | A Novel Remote Sensing Approach to Quantify Immediate and Committed Carbon Emissions from Wildfires in Human-Modified Tropical Forests | UK |
042 | Scott Henderson | University of Washinton | Retrieval of snow melt and snow-water-equivalent from ALOS-2 L-band radar | USA |
043 | Nazzareno Pierdicca | Sapienza University of Rome | SAR polarimetry supporting High Impact Weather Event risk management | Italy |
044 | Jin Woo Kim | Southern Methodist University | Inspecting the Permian Basin in the US using ALOS-2 PALSAR-2 interferometry | USA |
045 | Lei Zhang | The University of Hong Kong | Towards correcting atmospheric delays for multi-temporal ALOS-1/2 SAR measurements | China |
046 | Rodrigo Antonio De Souza | IBAMA | JJ-FAST ACCURACY AND USEFULNESS ANALYSIS | Brazil |
047 | Yanan Jiang | Chengdu University of Technology | Investigating of Landslide activities by exploiting both phase and amplitude information of ALOS PALSAR datasets | China |
048 | Hans-Erik Andersen | University of Washington | Estimating Forest Carbon Stocks in Interior Alaska by Integrating Field, Airborne and ALOS-2 Satellite Data | USA |
049 | Edward Mitchard | University of Edinburgh | Testing the use of ALOS-2 data map forest degradation using the Tropical Forest Degradation Experiment | UK |
050 | Teng Wang | Peking University | Deriving coseismic displacement from advanced SAR imagery Applications to large earthquakes since 2015 | China |
051 | Eugenio Sansosti | National Research Council - CNR | Monitoring and Disaster Risk Management at Galapagos volcanoes through ALOS-2 interferometric(InSAR) application | Italy |
052 | Emilie Matsumoto-Takahashi | National Center for Global Health and Medicine | Impact of climate change on malaria and Schistosomiasis mekongi in Lao PDR: Spatial epidemiological analysis using advanced earth observation satellite data | Japan |
053 | Falk Amelung | University of Miami | Deformation Monitoring of volcanoes in Southeast Asia | USA |
054 | Johannes Reiche | Wageningen University | Combining L-band SAR data, optical data and active fire alerts for detecting and characterising fire-related tropical forest dynamics | Netherlands |
055 | Shaun Quegan | University of Sheffield | Estimating forest above-ground biomass change in East Africa from L-band SAR data | UK |
056 | Ching-Weei Lin | National Cheng Kung University | Using ALOS-2 SAR interferometry to evaluate the activity of deep-seated landslides and to help remediation planning in catastrophic landslide hazard mitigation in Taiwan | Taiwan |
057 | Sang-Hoon Hong | Pusan National University | Evaluation of ALOS-2 SAR observations to explore ground subsidence using a time-series of displacement at Pusan city in Korea | Korea |
058 | Sang-Eun Park | Sejong University | Monitoring permafrost active layer dynamics with ALOS-2 | Korea |
059 | Lars Ulander | Chalmers University of Technology | Temporal variations in PALSAR-2 and tower radar measurements over a boreal forest | Sweden |
060 | Benjamin Holt | Jet Propulsion Laboratory | PALSAR Observations for Sea Ice and Ocean Studies | USA |
061 | Zhong Lu | Southern Methodist University | Monitoring Aleutian Volcanoes Using Geodetic Data Assimilation Based on ALOS-2 | USA |
062 | Simone Pettinato | National Research Council of Italy | Investigation of natural surfaces by using different SAR missions for Risk and Water Resources Management | Italy |
063 | Rou-Fei Chen | Chinese Culture University | Activity and Kinematic behavior of Deep-Seated Gravitational Slope Deformations by Multi-temporal InSAR with ALOS2 imagery in Taiwan | Taiwan |
064 | Marcel Urban | Friedrich-Schiller-University, Jena | PALSAR-2 time series for vegetation and surface moisture analysis in different ecosystems of South Africa | Germany |
065 | Mong-Han Huang | University of Maryland, College Park, Maryland | Using ALOS-2 SAR interferometry to detect landslides along active plate margins | USA |
066 | Jiun-Yee Yen | National Dong Hwa University | Detail surface deformation and landslide monitoring using high resolution ALOS/ALOS-2 data in potential geohazard area, Taiwan | Taiwan |
067 | Lifu Chen | Changsha University of Science and Technology | An end-to-end landslide detection method with high accuracy by using SAR images | China |
068 | Batuhan Osmanoglu | NASA Goddard Space Flight Center | Rapid Disaster Assessment Using ALOS-2 Imagery | USA |
069 | Verkhoturov Andrei Leonidovich | Khabarovsk Federal Research Center of the Far Eastern Branch of the Russian Academy of Sciences (KhFRC FEB RAS) | Study of possibilities multi-interferogram techniques for monitoring geodynamic of Far Eastern Russia by ALOS-2 and GNSS | Russia |
070 | Parwant Ghuman | 3vGeomatics, Inc. | Landslide Displacement Map for West Virginia, USA Based on InSAR Analysis of High-Resolution L-Band ALOS-2 and ALOS-4 SAR Images | Canada |
071 | LEE Ken Yoong | National University of Singapore | Polarimetric decomposition and classification for land cover identification and change analysis | Singapore |
072 | Lujia Feng | Nanyang Technological University | Mapping and monitoring active tectonic deformation along the Sumatran fault system using ALOS-2 and GPS | Singapore |
073 | Sang-Ho Yun | NASA Jet Propulsion Laboratory | Global Rapid Damage Mapping with Spaceborne SAR Data | USA |
074 | Jyr-Ching Hu | National Taiwan University | Using a dense permanent GPS network and atmospheric model to perform tropospheric correction in ALOS-2 time series analysis | Taiwan |
075 | Valentin Mikhailov | Schmidt Institute of Physics of the Earth of the Russian Academy of Sciences | Comprehensive study and monitoring of geodynamic processes in the Kurile-Kamchatka subduction zone by joint interpretation of satellite SAR and surface data | Russia |
076 | Dirk Hoekman | Wageningen University | Tropical Peat Watch demonstrator Indonesia | Netherlands |
077 | Lin Liu | The Chinese University of Hong Kong | Automatically Delineating Glacier Termini in Greenland using PALSAR-2 Data | China |
078 | Masanobu Shimada | Tokyo Denki University | Multi-year Monitoring of Forest Cover Change in the Endangered African Dry Tropical Forest | Japan |
079 | MinJeong Jo | USRA / NASA Goddard Space Flight Center | SAR Based 3D Deformation Monitoring of Glaciers and Aquifers in the High Mountain Asia | USA |
080 | Kuo-En Ching | National Cheng Kung University | Earthquake potential at the mud diapirism-induced extrusion region in SW Taiwan using the geodetic data | Taiwan |
081 | Lin Liu | The Chinese University of Hong Kong | Mapping permafrost thaw subsidence using PALSAR-2 and ground measurements | China |
082 | Liu Guang | Institute of Remote Sensing and Digital Earth, CAS | Subsidence of Coastal Reclamation Land Monitoring with Advanced InSAR technique | China |
083 | Bing Yu | School of Civil Engineering and Architecture, Southwest Petroleum University | Oilfield subsidence monitoring and reservoir parameters inversion based on ALOS-1/2 PALSAR-1/2 interferometry | China |
084 | Kurt L. Feigl | University of Wisconsin-Madison | Monitoring rapid deformation at the Laguna del Maule Volcanic Field in the Southern Andes of Chile using Interferometric Analysis of ALOS-2 PALSAR data | USA |
085 | Ray Y. Chuang | National Taiwan University | Assessing time-dependent surface deformation and active structure movement at the plate boundary zones in Taiwan | Taiwan |
086 | Helene Le Mevel | Carnegie Institution for Science | Investigating current deformation of volcanic edifices in tropical environments: case studies of Ambrym and La Soufriere de Guadeloupe volcanoes | USA |
087 | Bruno Adriano | RIKEN Center for Advanced Intelligence Project | Rapid-intelligent response system for disaster damage mapping using ALOS-2 data | Japan |
088 | John Armston | University of Maryland | Fusion of ALOS-2 and Spaceborne Lidar Observations for High Resolution Mapping of Degraded and Regenerating Forest Structure and Biomass in Australia | USA |
089 | Benoit Taisne | Earth Observatory of Singapore | Towards a Better Understanding of Active Volcanoes in Southeast Asia from PALSAR-2 and IN-Situ Observations | Singapore |
090 | Chao Wang | Aerospace Information Research Institute, Chinese Academy of Sciences | Commercial vessels detection and classification using Deep Learning with ALOS-2 imagery | China |
091 | Justin E. Stopa | University of Hawaii at Manoa | Potential of ALOS-2 PALSAR for disaster monitoring of Tropical Cyclones: Sensitivity study of the radar signal to ocean surface wind and intense rainfall | USA |
092 | Paul Siqueira | University of Massachusetts | L-band Sensitivity to Biomass and Landcover Structure in the ABoVE domain | USA |
093 | Michael Battaglia | Michigan Technologcal University | Monitoring Coastal Wetlands in the Laurentian Great Lakes Using PolSAR and InSAR techniques | USA |
094 | Fumitaka Ogushi | Harris Geospatial Solutions K.K. | Improvement of the interferometric stacking technology with PALSAR-2/PALSAR-3 data | Japan |
095 | Erxue Chen | Institute of Forest Resources Information Techniques, Chinese Academy of Forestry | Forest structure information extraction from multi-dimension features of ALOS2 PALSAR2 data | China |
096 | Akira Kato | Chiba University | Monitoring fire refugia after forest fire to identify vegetation recovery status | Japan |
097 | Christiane Schmullius | Friedrich-Schiller-University of Jena | Characterization of Amazon floodplain forest habitats and inundation dynamics using PALSAR-2 time series | Germany |
098 | Zhenhong Li | Chang'an University | Landslide hazards revealed by ALOS-2/4 and satellite optical observations | China |
099 | Masanobu Shimada | Tokyo Denki University | Deforestation detection by using coherence change in Japanese forest | Japan |
100 | Yuanyuan Liu | East China University of Technology | Landslide deformation monitoring and mechanism inversion revealed by advanced InSAR techniques | China |
101 | Kuo-Hsin Tseng | National Central University | Using ALOS-2 PALSAR-2 to Decompose Land Subsidence Associated with Multiple Land Use in Taiwan | Taiwan |
102 | Maurizio Santoro | Gamma Remote Sensing | Decadal forest biomass change with ALOS-1 and ALOS-2 L-band SAR observations | Switzerland |
103 | Tien Dat Pham | Macquarie University | Monitoring forest communities in Australia using multi-temporal SAR remotely sensed data and advanced machine learning techniques | Australia |
104 | Alexandre Bouvet | CESBIO | Above-ground biomass change in the woodlands and savannas of Southern Africa | France |
105 | Dewan Mohammad Enamul Haque | University of Dhaka | Time Series Measurement of Three Dimensional Volcanic Surface Deformations from ALOS-2 InSAR & Optical Image Sub-pixel Correlation along with Land Surface Temperature Change Detection | Bangladesh |
106 | Xuguo Shi | China University of Geosciences | Landslide inventory and precise monitoring with L band ALOS2 PALSAR2 images in the Three Gorges area of China | China |
107 | Bernd Scheuchl | University of California, Irvine | InSAR based Ice Velocity and Grounding line Measurements in Antarctica | USA |
108 | Jie Dong | Wuhan University | Improved Correction of Seasonal Tropospheric Delay in InSAR Observations for Landslide Deformation Monitoring | China |
109 | Jin Woo Kim | Southern Methodist University | Mapping and characterizing the landslides in Pacific Northwest US by InSAR, precipitation, and soil moisture datasets | USA |
110 | Jianping Chen | Jilin University | Potential slope failure monitoring in heavy forest areas nearby hydropower stations along the Jinsha River | China |
111 | Guoyan Jiang | Wuhan University | Study on kinematics of the Karakoram fault and its role in the westward lateral extrusion of the Tibetan Plateau using ALOS-2 data | China |
112 | Negin Fouladi Moghaddam | The Australian National University | Proposing new analysis method using machine learning and SAR interferometry for modelling mega-thrust earthquakes | Australia |
113 | Jun Su Kim | German Aerospace Centre | Grasping 3-D structure/dynamics of the ionosphere using L-band SAR data | Germany |
114 | Qing Wang | Jilin University | Using ALOS-2 SAR interferometry to monitor the land surface deformation induced by seasonal freezing and groundwater pumping in Songnen Plain, Northeastern China | China |
115 | Qingli Luo | Tianjin University | Multi-temporal INSAR analysis of high speed railway deformation in Beijing-Tianjin-Hebei region using PALSAR-2 | China |
116 | Josef Kellndorfer | EARTH BIG DATA LLC | Multi-frequency SAR Time Series Analysis for Ecosystem Monitoring: Fusing ALOS-2, ALOS-4, NISAR and Sentinel-1 Data Sets | USA |
117 | Arcot Sowmya | The University of New South Wales | Development of deep learning methods in classification and change detection of terrain characteristics | Australia |
118 | Chaoying Zhao | Chang'an University | Small-scale and large area landslide detection, monitoring and early warning with ALOS/PALSAR-2 data over the Loess Plateau, China | China |
119 | Shubham Awasthi | Indian Institute of Technology Roorkee, Uttarakhand, India | Integration of Time series SAR Interferometric datasets with multi-baseline datasets for enhanced 3 D the urban Infrastructure monitoring in India | India |
120 | Rahmat Arief | National institute of Aeronautics and Space / LAPAN | Development of Digital Services for Peatland Monitoring | Indonesia |
121 | Y. S. Rao | Indian Institute of Technology Bombay | Spatio-temporal analysis of L-band SAR data for flood mapping with a special emphasis on Indian mega cities | India |
122 | Heiko Balzter | University of Leicester | The Application of ALOS2-PALSAR in analysing pantropical forest dynamics | UK |
123 | Feifei Qu | Southern Methodist University | Identify and monitor growth faulting by using InSAR analysis over Greater-Houston region | USA |
124 | Kyung-Ae Park | Seoul National University | Characteristics of Sea Surface Wind Fields in the Seas around the Korean Peninsula from PALSAR Data and Air-Sea Interaction | Korea |
125 | Humberto Navarro de Mesquita Junior | Brazilian Forest Service | Brazilian Forest Map: Qualification of Tropical Forest Remnants to Sustainable Development Goals | Brazil |
126 | Ling Chang | University of Twente | Analysis of Forest fire using radar | Netherlands |
127 | Hong Zhang | Institute of Remote Sensing and Digital Earth, CAS | Multi-temporal PALSAR data Large-scale Crop mapping based on A Deep Learning Architecture | China |
128 | Franz J Meyer | University of Alaska Fairbanks | New Applications of ALOS-2/4 L-band SAR and InSAR Data over Permafrost Regions | USA |
129 | Genya Saito | The University of Tokyo | Understanding and promoting the use of ALOS2/PALSAR2 data characteristics in diverse ecosystems | Japan |
130 | Pete Bunting | Aberystwyth University | Global Mangrove Watch: Moving to finer spatial resolutions | UK |
131 | Lingli Zhao | Wuhan University | Large Scale Monitoring of Wetland Using the Multi-temporal ALOS-2 Data | China |
133 | Ram Avtar | Hokkaido University | Evaluating effectiveness of community forestry program in Cambodia using geospatial data | Japan |
134 | Suman Singha | German Aerospace Center | Understanding sea ice properties at L-band for comprehensive sea ice characterization during MOSAiC | Germany |
135 | Hiroto Nagai | WASEDA University | Development of snow-depth distribution product for Japanese heavily-snowing regions using SAR data | Japan |
136 | Ying-Hui Yang | Southwest Petroleum University | Investigating the creeping-to-locked transition segment of the Philippine fault on Leyte Island using long-span InSAR observations | China |
137 | V.S.K. Vanama | Indian Institute of Technology Bombay | Urban form characterization and their backscattering library generation using temporal L-band SAR images for operational flood disaster response | India |
139 | Keren Dai | Chengdu University of Technology | Monitoring the large-scale landslides along the Longmenshan faulting system in Sichuan (China) with InSAR technique based on L-band ALOS2 images | China |
140 | Yo Fukushima | Tohoku University | Evaluation of large earthquake potentials on Iran using ALOS-2 data | Japan |
141 | Daniel Spengler | GFZ German Research Centre for Geosciences | Deriving biophysical parameters and soil moisture from multi-frequency and multi-polarization SAR data - A case study for the Durable Environmental Multidisciplinary Monitoring Information Network - DEMMIN, Germany | Germany |
142 | Kuo-Lung Wang | National Chi Nan University | Landslide recovering rate due to climate change effect after enormous disasters | Taiwan |
143 | Celio Helder Resende de Sousa | NASA Goddard Space Flight Center | Country-level Land Cover and Ecosystem Extent Mapping in Liberia, Gabon and Botswana | USA |
144 | Hyangsun Han | Kangwon National University | Sea ice characteristics during transition periods in the Marginal Ice Zone of the Pacific Arctic Ocean utilizing Quad-Pol SAR data | Korea |
145 | Thiago Sanna Freire Silva | University of Stirling | Integrating multisensor information as analysis-ready data for semi-automated monitoring of South American wetlands | UK |
146 | R.S. Chatterjee | Indian Institute of Remote Sensing | Detection and Characterization of Land Surface Deformation due to Himalayan Geodynamics and Groundwater Over-extraction in Northern India | India |
147 | Dharmendra Singh | Indian Institute of Technology Roorkee | Efficient deep learning approach for development of an adaptive crop classification and soil moisture map using fully polarimetric SAR data | India |
148 | Kirsten Barrett | University of Leicester | Monitoring of post-disturbance recovery and structure of boreal forests | UK |
149 | Hasanuddin Z. Abidin | Institut Teknologi Bandung | On the Use of InSAR Results for Earthquake Hazard Based Spatial Planning | Indonesia |
150 | Stephane Mermoz | GlobEO | Forest loss detection using ALOS-1 and ALOS-2 SAR data | France |
151 | Matias Barber | Institute for Astronomy and Space Physics | Multi-sensor deforestation monitoring over Dry Chaco Forest in Argentina | Argentina |
153 | Yasunori Nakayama | Nihon University | Investigation of the relationship between the wide-range environmental fluctuation and natural disaster occurrence by the integrated analysis using Plural satellite data | Japan |
154 | Kiran Yarrakula | Ghani Khan Chaudhury Institute of Engineering and Technology(GKCIET) | Detection of Floods from ALOS2 Synthetic Aperture Radar Data | India |
155 | Johan Fransson | Swedish University of Agricultural Sciences | Retrieval of forest biomass and biomass change using PALSAR, PALSAR-2 and PALSAR-3 data | Sweden |
156 | Arif Aditiya | Geospatial Information Authority of Indonesia | Application of multi-temporal SAR data for surface deformation mapping and disaster risk reduction evaluation in Indonesia | Indonesia |
157 | Bruce Chapman | JPL | ALOS-2 ecosystem product validation with UAVSAR and field measurements | USA |
158 | Changcheng Wang | Central South University | Forest above-ground biomass estimation in subtropical hilly area based on ALOS PALSAR-2 data | China |
159 | Timo Balz | Wuhan University | Using PALSAR-2 data to support landscape archaeology in Central Asia | China |
160 | Ruya Xiao | Hohai University | Deformation monitoring for fast decorrelation areas of Yangtze River Delta using multi-sensor InSAR time series | China |
161 | Xiaoge Liu | Central South University | Monitoring and modeling 3D time-series ground deformations caused by underground resource exploitation using ALOS-2 data | China |
162 | Paul Siqueira | University of Massachusetts | Measurement of Agricultural Crop Area and Agricultural Crop Classification Using ALOS-2 Time-Series Observations | USA |
163 | James Hollingsworth | Universit_ Grenoble Alpes | Combining ALOS-2 with optical satellite data to constrain shallow slip in large continental strike-slip earthquakes | France |
164 | Hoonyol Lee | Kangwon National University | Interaction of ice flow and subglacial lakes in Antarctica observed by synthetic aperture radar interferometry | Korea |
165 | Xiaofeng Li | National Oceanic and Atmospheric Administration | Developing SAR-based coastal zone classification and inundation mapping algorithms | USA |
166 | Chen Yu | Newcastle University | Active Faults and Seismic Risk Assessment in the Tropics | UK |
167 | Bing Xu | Central South University | Landslide Monitoring and its Early Warning using ALOS-2 and GPM Data | China |
168 | Grant Gunn | Michigan State University | Implications and Applications of L-band Polarimetric Observations for Lake Ice | USA |
169 | Atsuko Nonomura | Kagawa University | Monitoring of landslide susceptible area by using ALOS-2 data | Japan |
170 | Benoit Deffontaines | UPEM and IGN | The Earthquake Cycle of major Active Tectonics Structures of Southern Taiwan | France |
171 | Yongsheng Li | China Earthquake Administration | Study on activity and stress of earthquake process in Qinghai-Tibet Plateau | China |
172 | Richard R. Forster | The University of Utah | Snow Hydrology applications with PALSAR-2 | USA |
173 | Cristiano Tolomei | Istituto Nazionale di Geofisica e Vulcanologia | Retrieval of crustal deformation in the seismic cycle using InSAR measurements | Italy |
174 | Nathan M Thomas | University of Maryland | Mapping extent, change and biomass of tropical flooded forest ecosystems | USA |
176 | Leif Eriksson | Chalmers University of Technology | Ocean surface wind retrieval from multi-frequency SAR | Sweden |
177 | Sang-Hoon Hong | Pusan National University | Evaluation of glacier movement and crustal rebound in the Greenland with a time-series analysis using multi-temporal ALOS-2 PALSAR-2 observations | Korea |
178 | Matias Barber | Institute for Astronomy and Space Physics | Dual-frequency SAR backscatter dynamics of a salt flat in Northern Chile | Argentina |
179 | Rui Zhang | Southwest Jiaotong University | Earthquake-Induced Giant Landslides Detection and Accurate Exploration by ALOS-2/PALSAR-2 InSAR | China |
180 | Abdul Rashid Bin Mohamed Shariff | Universiti Putra Malaysia | Development of algorithm for surface soil moisture and vegetation water content in oil palm trees using PALSAR 2/3 | Malaysia |
181 | Casey Ryan | University of Edinburgh | Using remote sensing to monitor ecological and social changes in tropical agroforestry landscapes | UK |
182 | Agustan | Agency for the Assessment and Application of Technology | Jakarta metro land subsidence Jakarta derived from SAR data | Indonesia |
183 | Byongjun Hwang | University of Huddersfield | Mapping between semi-forest and natural forest in the Southwest Ethiopia using ALOS-2 and optical satellite sensors | UK |
184 | Changqing Ke | Nanjing University | Monitoring glacier change over the Tibetan Plateau based on ALOS-2 | China |
185 | Xiao-li Ding | The Hong Kong Polytechnic University | Landslide Hazard Identification and Monitoring of Mountainous Areas in Pakistan using InSAR Techniques | China |
186 | 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 |
187 | Youichiro Takada | Hokkaiod University | Study on the crustal and surface deformation using multiple SAR techniques by PIXEL group | Japan |
188 | Dewan Mohammad Enamul Haque | University of Dhaka | Biomass Estimation for an Improved Understanding of the Enhanced Carbon Emission due to Forest Clearing in Ukhia and Teknaf for Rohingya Settlements | Bangladesh |
189 | Mahdi Motagh | GFZ German Research Center for Geosciebces | ALOS-2 data mining for rapid response to natural hazards and systematic deformation monitoring related to solid earth geodynamics | Germany |
190 | Y. S. Rao | Indian Institute of Technology Bombay | Multi-temporal Interferometric SAR Data Analysis for Displacement Mapping of Earthquake and Urban Areas | India |
191 | Jinghui Fan | China Aero Geophysical Survey and Remote Sensing Center for Land and Resources | Monitoring typical ice movements with ALOS-2 for glacier avalanche disaster mitigation in the Tibetan Plateau | China |
192 | Nathan Torbick | Applied GeoSolutions | Scaling Measurement, Reporting, and Verification tools to support Sustainable Development Goals | USA |
193 | Lisa-Maria Rebelo | International Water Management Institute | Wetlands of the Nile and Ayeyarwaddy Basins, Post KC Program | Laos |
194 | Joaquim Armando Macuacua | National Directorate of Forestry | Deforestation and Forest Degradation Analysis in Mozambique | Mozambique |
201 | Yessy Arvelyna | Remote Sensing Technology Center of Japan | Observation of Peatland in Indonesia using Interferometry SAR | Japan |
202 | Kazuya Ishitsuka | Kyoto University | Understanding the mechanism of complex surface displacement using long-term SAR data | Japan |
203 | Nguyen Quoc Dinh | Vietnam Institute of Geosciences and Mineral Resources (VIGMR) | Integration of Ground Measurements and InSAR Techniques for Monitoring of Land Subsidence in Ca Mau (Vietnam) | Vietnam |
204 | Hyung-Sup Jung | University of Seoul | Measurement of Seaward ground deformation on coastal landfill area using ALOS2 PALSAR2 Radar Interferometry | Korea |
205 | Ted R. Feldpausch | University of Exeter | Fire effects on structure and carbon storage in Amazonian forests: assessing variation using forest plot and SAR L-band data | UK |
206 | Kamila Pawluszek-Filipiak | Wroclaw University of Environmental and Life Sciences | Integration of ALOS-2 and Sentinel-1 data for monitoring of fast deformation caused underground coal exploitation in Upper Silesian Coal Basins | Poland |
207 | Sugata Hazra | Jadavpur University | Monitoring surface deformation and land subsidence in deltas using Small Baseline Subset Technique and Persistent Scatterer Interferometry: The case of Krishna-Godavari and Ganga deltas on the Bay of Bengal, India. | India |
208 | Tomomichi Kato | Hokkaido University | Estimation of forest aboveground biomass by ALOS-2 data | Japan |
Category:ALOS-3
2022年3月31日現在
No. | Name | Organization | Research Title | Country |
---|---|---|---|---|
001 | Chinatsu Yonezawa | Tohoku University | Evaluations of the ALOS-3 Utilizations in Agriculture, forestry and fisheries | Japan |
002 | Masayuki Matsuoka | Mie University | Geometric accuracy and pansharpening of ALOS-3/WISH for disaster monitoring in mountainous area | Japan |
003 | Sultan Kocaman Gokceoglu | Hacettepe University | Calibration and validation of ALOS-3 imagery over Bergama and Ankara Testfields, Turkey | Turkey |
201 | Junichi Susaki | Kyoto University | Development of an algorithm for generation of DSM and detection of its change by using ALOS-3 data | Japan |
Category:ALOS-4
2022年3月31日現在
No. | Name | Organization | Research Title | Country |
---|---|---|---|---|
001 | Urs Wegmuller | Gamma Remote Sensing AG | ALOS-4 ionospheric correction and cross-sensor interferometry | Switzerland |
002 | Masato Furuya | Hokkaido University | Studying ionospheric signal using PALSAR-2/3 InSAR | Japan |
003 | Masanobu Shimada | Tokyo Denki University | Calibration and Validation of PALSAR-3 | Japan |
004 | Manabu Hashimoto | Kyoto University | Evaluation of Accuracy of Displacement Measurements of ALOS-4 in Tectonic Areas | Japan |
005 | Chin Shi Tong | Nanyang Technological University | Maximizing potential of ALOS-4 for Disaster Response in South and Southeast Asia | Singapore |
006 | Taku Ozawa | National Research Institute for Earth Science and Disaster Prevention(NIED) | Evaluation of PALSAR-3/InSAR for surface deformation detection | Japan |
007 | Ryo Natsuaki | The University of Tokyo | Interferometric Analysis of PALSAR-3 and Its Cross Interferometric Process Between PALSAR-2 | Japan |
008 | Hiroyoshi Yamada | Niigata University | Cal./Val. of ALOS-4 Quad. Pol. Data by Scattering Power Decomposition | Japan |
009 | Marc Thibeault | CONAE | Crops Classification and Soil Moisture Estimation over Cropland in Argentina using cross calibration with SAOCOM | Argentina |
010 | Angel Matias Palomeque | CONAE - Comision Nacional de Actividades Espaciales | ALOS-4/PALSAR-3 external calibration and cross-validation with SAOCOM | Argentina |
011 | Motofumi Arii | Mitsubishi Electric Corporation | Validation Plan of ALOS-4 Standard Products by Multi-parametric SAR Approach | Japan |
012 | Takenobu Toyota | Hokkaido University | Validation of the algorithm with L-band SAR data for detecting deformed sea ice area in the Arctic Ocean | Japan |
013 | Giorgio Gomba | German Aerospace Center (DLR) | Calibration of propagation effects for SAR interferometry: ionosphere and soil moisture | Germany |
014 | Howard Zebker | Stanford University | Phase calibration and validation of ALOS-4 data products for InSAR applications | USA |
015 | Bruce Chapman | JPL | NISAR and ALOS-4 Joint Cal/Val | USA |
016 | Bernd Scheuchl | University of California, Irvine | ALOS-4 PALSAR-3 Validation for Ice Sheet Science | USA |
017 | Akira Hirose | The University of Tokyo | High-resolution PolInSAR coregistration and filtering methods using phasor quaternion neural networks:Framework establishment and its applications | Japan |
018 | Konstantinos Papathanassiou | German Aerospace Center DLR | Polarimetric and Polarimetric Interferometric Calibration of ALOS-4 Data | Germany |
019 | Alexander Zakharov | Fryazino branch of Kotelnikov IRE RAS | PALSAR-3 radiometric calibration with natural distributed targets | Russia |
020 | Lars Ulander | Chalmers University of Technology | ALOS-4 PALSAR-3 calibration and validation activities in Sweden | Sweden |
021 | Paul Siqueira | University of Massachusetts | Calibration and Validation of ALOS-4 for Radiometry, Polarimetry and Volumetric Scattering | USA |
022 | Ridha Touzi | Canada Centre for Remote Sensing | Calibration and Validation of Polarimetric ALOS4-PALSAR3 | Canada |