Research Announcement
3rd Earth Observation Research Announcement(ALOS series PI)
Category:ALOS-2/-4 Apprication Research
As of Feb. 19th, 2024
No. | Name | Organization | Research Title | Country |
---|---|---|---|---|
001 | Maurizio Santoro | Gamma Remote Sensing AG | Decadal forest biomass change with ALOS-2 and ALOS-4 L-band SAR observations | Switzerland |
002 | Pete Bunting | Aberystwyth University | The Global Mangrove Watch: Mapping Extent and Uncertainty | UK |
003 | Paul Lundgren | Jet Propulsion Laboratory, California Institute of Technology | Application of ALOS-2/-4 InSAR to active volcanoes | USA |
004 | Bruce Chapman | Jet Propulsion Laboratory, California Institute of Technology | Joint polarimetric/time series analysis of inundation dynamics | USA |
005 | Marie-Pierre Doin | CNRS, Universitè Grenoble Alpes ISTerre | ALOS/ALOS-2/-4 InSAR time series analysis for the study of active faults and tectonic accommodation of continental sliver motion in Ecuador | France |
006 | Tara Shreve | University of Alaska Fairbanks | Systematically measuring ground deformation at passively degassing volcanoes | USA |
007 | Jun Su Kim | German Aerospace Center | Extension of SAR-based monitoring of ionosphere into the Digital Beamforming configurations | Germany |
008 | Jean-Luc Froger | Universitè de Lyon, Universitè Jean Monnet - Saint-Etienne | InSAR characterization of lava flows at Piton de la Fournaise (La Réunion Island) from ALOS-2/-4 data | France |
009 | Laura Bourgeau-Chavez | Michigan Technological University | Application of ALOS-2/4 for Mapping Peatlands and Wetlands in the Americas | USA |
010 | Fan Hongdong | China University of Mining and Technology(CUMT) | Position inversion of goafs based on DS-InSAR data and the probability integral method | China |
011 | Yuri Fialko | University of California San Diego | Investigation of time-dependent deformation due to active faults and volcanic sources using ALOS-2/4 data | USA |
012 | Pinel Virginie | ISTerre | Study and monitoring of Merapi volcano, Indonesia using ALOS-2/-4 data. | France |
013 | Satoshi Okuyama | Meteorological Research Institute | Study on the crustal/surface defor-mation using high-frequency SAR observation by PIXEL Group | Japan |
014 | Paul Siqueira | University of Massachusetts | Sensitivity of Vegetation and Agriculture Physical Characterization to Repeat-Pass ALOS-2 and ALOS-4 PolInSAR Observations | USA |
015 | Ryoichi Sato | Niigata University | A study on observation of flood disaster area using ALOS-2/ALOS-4 polarimetric SAR data | Japan |
016 | Masanobu Shimada | Tokyo Denki University | Development of forest change detection by using AI in Brazil. | Japan |
017 | Simon Plank | German Aerospace Center (DLR) | Enhancing methodologies for rapid mapping and analysis of landslides, floods, and volcanic activity using ALOS-2/-3/-4 multi-sensor data | Germany |
018 | Yang Lei | Chinese Academy of Science | Generation of large-scale forest height/biomass and change/disturbance products by leveraging JAXA’s ALOS-2/ALOS-4 InSAR data in fusion with MOLI lidar data | China |
019 | Junichi Susaki | Kyoto University | Development of a method for estimating ground deformation around expressways by using satellite SAR images and data assimilation | Japan |
020 | Casey Ryan | University of Edinburgh | Accurate Retrievals of AGB from PALSAR 1-3 in African dry forest and savanna | UK |
021 | Andrew Hooper | University of Leeds | Investigating the phase bias in short-baseline multilooked interferograms of ALOS-2 L-band data | UK |
022 | Raphael Grandin | Institut de Physique du Globe de Paris Tectonics and Mechanics of the Lithosphere | InSAR Monitoring of Lesser Antilles volcanoes | France |
023 | Bernd Scheuchl | University of California | Use of ALOS-2 for generating ice sheet geophysical data products | USA |
024 | Yuta Izumi | Muroran Institute of Technology | Time Series InSAR for Accurate Estimation of CO2 Emission Over Tropical Peatland in Indonesia | Japan |
025 | Akira Hirose | The University of Tokyo | Adaptive filtering methods and optical data fusion for high resolution PolInSAR data based on phasor quaternion neural networks | Japan |
026 | Gulab Singh | Indian Institute of Technology Bombay | Forest bio-physical parameters retrieval using fully polarimetric ALOS-2/PALSAR-2 and ALOS-4/PALSAR-3 data | India |
027 | Alexander L. Handwerger | University of California Los Angeles | Monitoring landslide activity in response to ongoing changing shifts with ALOS-2/4 data | USA |
028 | Marc Simard | Jet Propulsion Laboratory | Using ALOS-2 and ALOS-4 for calibration and validation of hydrodynamic models in coastal wetlands | USA |
029 | David T. Sandwell | UCSD | Moment and Strain Accumulation Rate along the Southern San Andreas Fault System from InSAR and GNSS | USA |
030 | Peng Li | Ocean University of China | The relationship between coastal subsidence and land use over the Yellow River Delta in China with multi-source SAR observations | China |
031 | Changcheng Wang | Central South University | Forests three-dimensional structure and above-ground biomass estimation using polarimetric SAR tomography based on ALOS PALSAR-2/4 data | China |
032 | Go Iwahana | University of Alaska Fairbanks | Remote sensing of land changes caused by freeze/thaw and thermokarst using ALOS satellite data | USA |
033 | Takahiro Abe | Mie University | Long-term observation of permafrost degradation in eastern Siberia by ALOS-2/ALOS-4 | Japan |
034 | Joao Carreiras | University of Sheffield | ALOS L-band SAR data to improve country-level carbon reporting in the forest sector | UK |
035 | Michael S. Steckler | The Trustees of Columbia University in the City of New York | Improving Surface Deformation and Natural Hazard Models of Indo-Burma Subduction Zone Combining InSAR and GNSS | USA |
036 | Xuguo Shi | China University of Geosciences | Landslide inventory and susceptibility mapping with ALOS2 PALSAR2 images in mountainous area of China | China |
037 | Cristina Gómez | University of Valladolid | Development of methods for monitoring forest carbon stocks and forest degradation in a range of biomes with ALOS PALSAR data | Spain |
038 | Armando Marino | The University of Stirling | MoLaDy-PolSAR: Monitoring Land Dynamics using Polarimetric ALOS-4 SAR data | UK |
039 | Caijun Xu | Wuhan University | Investigate surface deformation and seismic activities within shale gas fields in the Sichuan Basin, China with space geodetic observations | China |
040 | Laurent-Ferro Famil | Institut Superieur de l'Aeronautique et de l'Espace | Forest biomass and biomass change monitoring in the Mekong region | France |
041 | Xie Hu | Peking University | Slow-moving Landslide Characterization Using SAR Remote Sensing | China |
042 | Guangcai Feng | Central South University | Monitoring and modeling the hydrocarbon resources development-related deformation in the margin area of Tien Shan, China using InSAR | China |
043 | Christiane Schmullius | Friedrich Schiller University Jena | Biomass estimation and change monitoring from multi-frequent SAR time series | Germany |
044 | Hasanuddin Z. Abidin | Institut Teknologi Bandung | InSAR Based Multi Hazard Monitoring by Means of Gaussian Process Regression Over Java Island Indonesia | Indonesia |
045 | Marco Lavalle | NASA JPL, California Institute of Technology | ALOS-2/ALOS-4 polarimetric time-series data for deforestation mapping and forest above-ground biomass estimation | USA |
046 | Lujia Feng | Nanyang Technological University | Mapping, monitoring and modeling active tectonic deformation along the Sumatran fault system using ALOS-2 and GPS | Singapore |
047 | Sang-Ho Yun | Nanyang Technological University | Rapid Damage Mapping and Disaster Response Support using Spaceborne SAR Data | Singapore |
048 | Rahmat Arief | Research Center for Remote Sensing,Research Organization for Aeronautics and Space, National Research and Innovation Agency (BRIN) | System Development of De-vegetation, Burnt Scar, and Soil Moisture Monitoring in Tropical Forest of Indonesia | Indonesia |
049 | Liang Hongyu | Tongji University | Development of deformation retrieval algorithm in low-coherence environment from ALOS-2/4 SAR images | China |
050 | Akira Kato | Chiba University | Verification for landscape equilibrium of forest fire disturbance | Japan |
051 | Zheng-Shu Zhou | The Commonwealth Scientific and Industrial Research Organisation Data61 | Multi-temporal ALOS-2 and ALOS-4 Polarimetric Data for Precise Estimations of Land-use and Land-cover and Ecosystem Monitoring in Australia | Australia |
052 | Juan M. Lopez-Sanchez | University of Alicante | Monitoring Doñana wetlands with fully polarimetric L-band data and fusion with other frequency bands | Spain |
053 | Christelle Wauthier | Pennsylvania State University | Monitoring volcanic flank instability at Pacaya Volcano, Guatemala | USA |
054 | Fang Shang | University of Electronics-Communication | Polarimetric SAR Data Interpretation Using Averaged Stokes Vectors based Features | Japan |
055 | Xiaoqiong Qin | Shenzhen University | 3D Deformation Monitoring and Structural Risk Assessment of Ultra-long Coastal Seawalls Combined ALOS-2/4 and Other SAR Datasets | China |
056 | Kazuki Nakamura | Nihon University | Monitoring of glaciers and their surrounding sea ice changes in the marginal zone of the East Antarctic ice sheet | Japan |
057 | Magaly Koch | Boston University | Natural disaster damage assessments using PALSAR-2/-3 and ALOS-3 optical data | USA |
058 | Hyung-Sup Jung | Univeristy of Seoul | Measurement and validation of Seaward ground deformation on coastal landfill area using ALOS4 PALSAR3 Radar Interferometry | Korea |
059 | Masato Furuya | Hokkaido University | Advanced Observational Science of Cryosphere by ALOS Satellites | Japan |
060 | Anup Kumar Das | Space Applications Centre(SAC), Indian Space Research Organization (ISRO) | Development of SAR based vegetation disturbance monitoring algorithm over NISAR validation sites in India | India |
061 | Jinfei Wang | The University of Western Ontario | Crop Monitoring and Soil Moisture Retrieval over Agricultural Fields Using Time-series L-band ALOS-2/4 Data | Canada |
062 | Hiroyuki Miura | Hiroshima University | Development of damage identification technique for structures by natural disasters based on high-resolution SAR data and deep learning | Japan |
063 | Lianhuan Wei | Northeastern University | Collaborative Monitoring and Modeling of the Recent Activities of Changbaishan Volcano with L-band SAR Data Stacks in Northeast China | China |
064 | Sang-Hoon Hong | Pusan National University | A time-series of ground subsidence monitoring at Pusan city in Korea using ALOS-2 SAR observations | Korea |
065 | Alex Hay-Man Ng | Guangdong University of Technology | Study of polarimetric-assisted time-series interferometric SAR technique for land deformation detection and target characterization | China |
066 | Matias Barber | Institute for Astronomy and Space Physics (IAFE) | Dual-frequency SAR backscatter dynamics of a salt flat in northwestern Argentina | Argentina |
067 | Lisa-Maria Rebelo | International Water Management Institute | Proposal for the K&C Initiative - Wetland identification and inundation mapping, continental Africa | Sri Lanka |
068 | Matt Pritchard | Cornell University | Unique application of L-band InSAR with ALOS-2/4 for studying high hazard and vegetated volcanoes in the southern Andes | USA |
069 | Benoit Deffontaines | Universitè Gustave Eiffel | Deformation of the Coastal Range and determination of the earthquake Cycle of the Longitudinal Valley Faults (E. Taiwan): implications for the Taiwan Mountain building. | France |
070 | Jeremy Maurer | Missouri University of Science and Technology | Testing for active subduction off-shore northern Hispaniola using ALOS-2 and Sentinel-1 InSAR and GNSS | USA |
071 | John Armston | University of Maryland | Biomass Estimation with ALOS-2 and New Spaceborne Lidar Observations for MRV in Dry Forests and Savannas | USA |
072 | Emma Hill | Nanyang Technological University | Rapid flood mapping for South and Southeast Asia using Synthetic Aperture Radar | Singapore |
073 | Ching-Weei Lin | National Cheng Kung University | Risk Assessment of Mountainous Highway in Taiwan With Interpretation of Multi-Temporal LiDAR DEM and ALOS-2 InSAR Analysis | Taiwan |
074 | Xiaogang Song | Institute of Geology, China Earthquake Administration | Spatiotemporal evolution of the surface deformation following the 1985 Mw7.0 Wuqia, China, earthquake from decades of InSAR measurements | China |
075 | Annett Bartsch | b.geos | Exploitation of subsidence information for permafrost research in the framework of ERC Q-Arctic | Austria |
076 | Hiroyoshi Yamada | Niigata University | Study on classification accuracy enhancement of urban and vegetation area by using ALOS-2/ALOS-4 data | Japan |
077 | Takashi Nonaka | Nihon University | Evaluation of the phase noise of PALSAR-3 on ALOS-4 and construction of the estimation of the ground displacement | Japan |
078 | Roland Burgmann | University of California, Berkeley | Imaging ground deformation at geothermal fields with InSAR | USA |
079 | Zhen Liu | Jet Propulsion Laboratory, California Institute of Technology | Application of ALOS-2/-4 InSAR to crustal deformation and fault mechanics in central California | USA |
080 | Matias Barber | Institute for Astronomy and Space Physics (IAFE) | Soil moisture estimation in semi-arid zones through combined active (ALOS-2/-4) and passive microwave observations | Argentina |
081 | Yusupujiang Aimaiti | Boston University | Monitoring and regularly updating ground deformations using SAR and Optical data | USA |
082 | Zhang Qin | Chang’an University | Landslide detecting and monitoring with ALOS-2/PALSAR images along Sichuan-Tibet Railway | France |
083 | David Mackenzie | 3v Geomatics Inc. | Geohazard identification and monitoring for critical infrastructure in vegetated settings. | Canada |
084 | Sang-Ho Yun | Earth Observatory of Singapore, Nanyang Technological University | Monitoring and modeling surface deformation of earthquakes in Southeast Asia using ALOS-2/4 data | Singapore |
085 | Qingli Luo | Tianjin University | INTERFEROMETRIC ANALYSIS ALONG HIGH SPEED RAILWAY USING PALSAR-2 AND PALSAR-4 | China |
086 | Hiroyuki Wakabayashi | Nihon University | Study on accuracy improvement of sea ice physical parameters extracted from PALSAR-2/3 polarimetric SAR data | Japan |
087 | Chen Yu | Chang’an University | Earth observation based landslide detection and early warning system | China |
088 | Andreas Schmitt | Munich University of Applied Sciences Institute for Applications of Machine Learning and Intelligent Systems | SAR-OPT data fusion for the application of AI algorithms in forestry and glaciology | Germany |
089 | Juan M. Lopez-Sanchez | University of Alicante | Multi-frequency SAR Data for Land Cover Classification and Crop-Type Mapping | Spain |
090 | Zhaohua Chen | Environment and Climate Change Canada | Monitoring seasonal variations of hydrology and vegetation in temporary wetlands using SAR | Canada |
091 | Malin Johansson | UiT The Arctic University of Norway | Improved Arctic Sea ice classification, thickness mapping and iceberg detection using a multi-sensor approach | Norway |
092 | Vanama Venkata Sai Krishna | Amity University | Rapid flood monitoring and vulnerability assessment using L-band Earth Observation (EO) images with special emphasis on Indian cities. | India |
093 | Junjun Yin | University of Science and Technology Beijing | Coastal Environment Observation and Land Cover Classification by Using L-band High-Resolution Polarimetric SAR Imagery | China |
094 | Johan Fransson | Linnaeus University | "Retrieval of forest biomass and biomass change using ALOS, ALOS-2 and ALOS-4 L-band SAR data" | Sweden |
095 | Dinh Ho Tong Minh | INRAE | Study subsidence under vegetation cover: Mangrove Can Gio | France |
096 | Tom Rune Lauknes | NORCE Norwegian Research Centre | Novel use of ALOS L-band InSAR for ground motion mapping in Norway, with focus on landslides and periglacial processes | Norway |
097 | Marc Thibeault | CONAE | Crops Classification and Soil Moisture Estimation over Cropland in Argentina using cross calibration with SAOCOM | Argentina |
098 | Keren Dai | Chengdu University of Technology | Landslides early identification in Southwestern China mountainous area with InSAR technique based on ALOS-2 images | China |
099 | Kong Youngkyun | Lumir Inc. | Developing Cloud-based Landslide Susceptibility Mapping Service - A case study in Republic of Korea | Korea |
100 | Josaphat Tetuko Sri Sumantyo | Chiba University | Bridging Consecutive DInSAR Method for Long Term Land Deformation Observation | Japan |
101 | Roland Burgmann | University of California, Berkeley | Incorporating multi-platform remote sensing for landslide kinematics characterization and hydromechanical modeling | USA |
102 | Cheryl Tay | Earth Observatory of Singapore, Nanyang Technological University | Land height and relative sea level changes for decision support and hazards planning in Southeast Asia | Singapore |
103 | Sadra Karimzadeh | University of Tabriz | Implementation of a big data system using satellite images for monitoring of large features | Iran |
104 | Mengshi YANG | School of Earth Sciences, Yunnan University | Detecting and monitoring of karst collapse with L-band PALSAR-2 Data Stacks in Kunming, Southwest China | China |
105 | Milan Lazecky | School of Earth and Environment, University of Leeds | Detection of landslide signals through vegetated slopes by L-band InSAR | UK |
106 | Jun Hu | Central South University | Investigating the temporal displacements of the Geysers geothermal field in California based on ALOS/ALOS-2/ALOS-4 SAR data | China |
107 | Jin Woo Kim | Southern Methodist University | Mapping and characterizing the slow-moving landslides in northwestern US by using ALOS-2/4 interferometry | USA |
108 | Graham Alexander Ryan | The University of the West Indies, Seismic Research Centre | Tracking magma storage in the Eastern Caribbean using ALOS-2/ALOS-4 data and continuous GPS networks | Trinidad and Tobago |
109 | Giulia Tessari | sarmap SA | Monitoring of Sakurajima volcano in Japan with PALSAR-2 and PALSAR-3 data: from small displacement measurement to modelling and forecast | Switzerland |
110 | Jie Chen | Northwest Institute of Eco-Environment and Resources (NIEER), Chinese Academy of Sciences (CAS) | Patterns and controls of ground deformation on the permafrost regions of the Qinghai-Tibet Plateau | China |
111 | Saygin Abdikan | Hacettepe University | Forest above-ground biomass estimation using features derived from multiple satellite data | Turkey |
112 | Luis Angel Moya Huallpa | PONTIFICIA UNIVERSIDAD CATÓLICA DEL PERÚ (PUCP) | ALOS-2/-4 BASED FLOOD MAPPING IN RURAL AREAS IN THE PERUVIAN AMAZON RAINFOREST | Peru |
113 | Marc-Henri Derron | University of Lausanne | Evaluation of multi-temporal INSAR techniques for Monitoring Mass Movements in Upper Chamoli District with Emphasis on Process Modelling of the 2021 Rishi Ganga catastrophic Debris Flow | Switzerland |
114 | Qiming Zeng | School of Earth and Space Sciences, Peking University | High-precision 3-D co-seismic deformation retrieval and post-seismic deformation behavior analysis by using spaceborne InSAR | China |
115 | Yanan JIANG | Chengdu University of Technology | Landslide Monitoring and Deformation Interpretation base on SAR Datasets and Geological Analysis | China |
116 | LI Jia | Central South University | Investigating the mechanism of glacier surge in Tibetan Plateau with the time series of SAR image derived 3D flow velocity | China |
117 | Zhenhong Li | Chang'an University | Rapid co-seismic and precise strain rate mapping in Tibet Plateau with Earth Observations | China |
118 | Jin Woo Kim | Southern Methodist University | Mapping the geohazards over the Permian Basin in the US using ALOS-2/4 interferometry | USA |
119 | Giulia Tessari | sarmap SA | Automatic recognition and classification of ships in ALOS-2 /-4 SAR images using Deep Learning and AIS data | Switzerland |
120 | Tomomichi Kato | Hokkaido University | Estimation of forest aboveground biomass using satellite data | Japan |
121 | Siting Xiong | Guangdong Laboratory of Artificial Intelligence and Digital Economy (SZ) | Soil moisture retrieval in collapsible loess area based on InSAR closure phase | China |
122 | Arif Aditiya | Geospatial Information Authority | Multi Temporal SAR Application for Surface Deformation Mapping Analysis in Indonesia | Indonesia |
123 | Menghua Li | Kunming University of Science and Technology | Detecting and Monitoring landslides in the Yunnan Section of the Hengduan Mountains with L-band PALSAR-2 Data Stacks | China |
124 | Gulab Singh | Indian Institute of Technology Bombay | Himalayan Snow and Glacier Studies using Fully Polarimetric Radar Remote Sensing | India |
125 | Sushil Kumar Singh | Space Applications Centre ISRO | Estimation of total snow cover, snow depth/SWE and surface ice velocity of glaciers and its application to understand the status of Himalayan Cryosphere | India |
126 | Martin Gade | Universität Hamburg | SAR CLASSIFICATION OF INTERTIDAL SURFACES AND HABITATS (SCISH) | Germany |
127 | Ramji Dwivedi | Motilal Nehru National Institute of Technology (MNNIT) Allahabad | Landslide monitoring, strain mapping and landslide forecasting using ALOS (L-band SAR) acquisitions | India |
128 | Peng Liu | Southern University of Science and Technology | Landslide observation based on DS-InSAR and robust phase unwrapping | China |
129 | Zhong Lu | Southern Methodist University | Magma Plumbing Systems of Aleutian Volcanoes Based on ALOS-2 and ALOS-4 InSAR and Geodetic Data Assimilation | USA |
130 | Yuanyuan Liu | East China University of Technology | Identification, dynamic monitoring and mechanism inversion of glacier and the secondary landslide disasters in Qinghai-Tibet Plateau based on advanced SAR/InSAR techniques and geophysical models | China |
131 | Minjeong Jo | NASA Goddard Space Flight Center | Volcanic hazard assessment using multi-temporal ALOS-2 imagery | USA |
132 | Paul Siqueira | University of Massachusetts | L-band Sensitivity to Biomass and Landcover Structure in the ABoVE domain | USA |
133 | Dharmendra Singh | Indian Institute of Technology Roorkee, INDIA | Development of Artificial Intelligence Based novel algorithm for mapping and monitoring the flooded regions and partially submerged vegetation using Multi-Temporal fully Polarimetric SAR data | India |
134 | Chlieh Mohamed | Institut des Sciences de la Terre, University Grenoble-Alpes | Crustal Deformation and Telluric Hazards in the Central Andes from ALOS/PALSAR and ALOS-2/PALSAR2 radar data | France |
135 | Qihuan Huang | Hohai University | Overcoming barriers to Near-Real-Time InSAR processing: avoid rereading and reprocessing processed data | China |
136 | Sreejith K.M. | Space Applications Centre, Indian SPace Research Organisation (ISRO) | Study on Earthquake Deformation Cycle at the Himalayan Plate Boundary Using InSAR Analysis and Modeling | India |
137 | Changcheng Wang | Central South University | Crop Classification with Time-Varying Polarimetric Feature Curves based on the Time-Series PALSAR-2/4 Datasets | China |
138 | Xiaoyi Shen | Nanjing University | Detecting melt ponds over Arctic sea ice based on ALOS-2 | China |
139 | Javier Alejandro Gonzalez Ortega | CICESE | Slow slip events along the Mexican subduction zone using InSAR and GPS: implications to large earthquakes and seismic hazard | Mexico |
140 | Sang-Hoon Hong | Pusan National University | A time-series of glacier movement and crustal uplift due to massive ice loss glacier in polar regions using ALOS-2 SAR observations | Korea |
141 | Zhengjia Zhang | China University of Geosciences | Permafrost dynamic monitoring and its feedback to climate change using synthetic aperture radar interferometry | China |
142 | Veraldo Liesenberg | Santa Catarina State University (UDESC) | RETRIEVING FOREST ATTRIBUTES IN TROPICAL RAINFOREST ENVIRONMENTS USING MULTIPLE REMOTE SENSING DATA SOURCES | Brazil |
143 | Hyangsun Han | Kangwon National University | Dynamics of ice shelves and sea ice in East Antarctica investigated by ALOS-2/4 interferometric and polarimetric SAR | Korea |
144 | Masuto Ebina | Hokkaido Research Organization | Forest Type Classification and Biomass Estimation for Natural Forests in All Over Hokkaido | Japan |
145 | Hasi Bagan | Shanghai Normal University | Combining ALOS series Optical and SAR imagery for local climate zone classification | China |
146 | Divyesh Varade | Indian Institute of Technology Jammu | Monitoring of snow hydrological potential using advanced SAR techniques | India |
147 | Changqing Ke | Nanjing University | Mapping and inventorying of glaciers over the Tibetan Plateau by synergy of ALOS-2 and ALOS-3 images | China |
148 | Xuejun Qiao | Institute of Seismology, China Earthquake Administration | Study on the Tectonics and Seismic Risk of Active Faults around Tibet Plateau from GPS and InSAR Measurements | China |
149 | Sang-Eun Park | Sejong University | Monitoring Changes of Permafrost Ecosystem using Optical and SAR data | Korea |
150 | Jingfa Zhang | National Institute of Natural Hazards, Ministry of Emergency Management of China | Application of L-band SAR in natural disaster emergency response | China |
151 | Bruno Adriano | Tohoku University | Integration of deep neural networks and physics-based features to estimate flood depth using ALOS-2 data | Japan |
152 | Fengming Hui | Sun Yat-Sen University | Retrieving Active Layer Thickness of Permafrost in Svalbard Using Time-Series InSAR Technique | China |
153 | Chao Wang | Aerospace Information Research Institute, Chinese Academy of Sciences | Permafrost study in Qinghai-Tibet Plateau using ALOS-2/4 data | China |
154 | Qi Liang | Sun Yat-sen University | Use of PALSAR-2 data for monitoring ice velocity and grounding line in Antarctica | China |
155 | Lu Zhang | Wuhan University | Retrieval of Forest Structural Parameters and Sub-canopy Topography Using Low-frequency PoIInSAR Data | China |
156 | Ratheesh Ramakrishnan | Space Applications Centre (SAC), Indian Space Research Organization (ISRO) | Study on the morphodynamics of shallow water bathymetric features and coastal subsidence of selected delta using ALOS PALSAR | India |
157 | Kyung-Ae Park | Seoul National University | Oceanic Applications of ALOS PALSAR Wind Forcing Data in the Seas around the Korean Peninsula | Korea |
158 | Teng Wang | Peking University | Deriving centimeter-level coseismic deformation and static source parameters of small-to-moderate earthquakes from time-series SAR images | China |
159 | Philipp Bernhard | ETH Zürich | Feasibility study on network-level proxy-based detection of railway sections affected by subsurface moisture | Switzerland |
160 | Yohei Kinoshita | University of Tsukuba | Development of improved InSAR atmospheric delay correction method toward millimeter-accuracy displacement detection and its application for aseismic deformation researches | Japan |
161 | Johannes Reiche | Wageningen University | Monitoring and characterisation of small-scale forest disturbances using L-band radar | Netherlands |
162 | Ran Novitsky Nof | The Geological Survey of Israel | Estimation of runoff properties using InSAR Coherence: synthesis and calibration of multi-satellite data | Israel |
163 | Park Haemi | Sophia University | Soil moisture content estimation in humid bare land by using L-band full polarization | Japan |
164 | David Grau Torrent | Arizona State University | Underground Water Utilities Leakage Detection Using Satellite Imagery and Artificial Intelligence | USA |
165 | Kuo-Lung Wang | National Chi Nan University | Potential Landslides Detection and Debris Estimation of Catchment - An Example of Wushe Reservoir | Taiwan |
166 | Angelika Humbert | Alfred Wegener Institute Helmholtz Centre for Polar and Marine Research | Firn hydrology in Greenland | Germany |
167 | Xue Chen | University of Padua | Investigating land surface deformation and soil moisture using ALOS-2 PALSAR-2 data | Italy |
168 | Manabu Hashimoto | Tokyo Denki University | Detection of slow slip events with ALOS-2/4 | Japan |
169 | Edson Eyji Sano | Brazilian Agricultural Research Corporation (Embrapa) | Combined use of ALOS-3 and ALOS-4 data sets for monitoring agricultural expansion in the Brazilian Cerrado and in the Amazon/Cerrado ecotone | Brazil |
170 | Dirk Hoekman | SarVision | Tropical forest biomass and peat carbon dynamics | Netherlands |
171 | Natalia Soledad Morandeira | Universidad Nacional de San Martín - CONICET | Floodplain wetlands in the Del Plata basin (Argentina): contribution of L-Band SAR data for monitoring land use transformations and vegetation dynamics | Argentina |
172 | Felix Bachofer | German Aerospace Center (DLR) | Monitoring the Coastal Zone of Central Vietnam for Flood Risk Assessment | Germany |
173 | Yunung Nina Lin | Academia Sinica | Assimilation of SAR-based TEC for Ionospheric Mapping in the Taiwan Region | Taiwan |
174 | Ferdinando Nunziata | Università degli Studi di Napoli Parthenope | Multi-frequency SAR Ocean Wind Field Estimation | Italy |
175 | Koh Lian Pin | National University of Singapore | Assessing multi-sensor Earth observation time-series data for enhancing the credibility and integrity of nature-based climate solutions in Southeast Asia | Singapore |
176 | Jinqi Zhao | China University of Mining and Technology | Monitoring Wetland Based on PolSAR and InSAR Technology Using the Multi-temporal ALOS PALSAR1/2 Data | China |
177 | Erwan Pathier | Univ. Grenoble Alpes | InSAR monitoring of the seismic cycle in the Guerrero-Oaxaca Subduction zone (Mexico) | France |
178 | Ray Y. Chuang | National Taiwan University | Characterizing rapid surface deformation along the frontal Taiwan mountain belt and its impacts on infrastructure and urban areas | Taiwan |
179 | Timo Balz | Wuhan University | Multi-source remote sensing data analysis for cultural heritage protection and looting detection | China |
180 | Hahn Chul Jung | Yonsei University | Monitoring tidal flat morphology and topography in the western and southern coasts of Korea using ALOS-2 SAR observations | Korea |
181 | Ram Avtar | Hokkaido University | Carbon Loss Estimation due to Peat Forest Transformation in Indonesia using InSAR techniques | Japan |
182 | Marco Ottinger | German Aerospace Center (DLR) | Integrating Multi-frequency SAR for the Mapping and Monitoring of Coastal Aquaculture | Germany |
183 | Jyr-Ching Hu | National Taiwan University | Automatic detection and monitoring of natural hazards in Taiwan by SAR and InSAR | Taiwan |
184 | Chaoying Zhao | Chang'an University | Landslide detection, monitoring and failure mechanism research in Karst mountains area, China with ALOS-1/2/4 datasets | China |
185 | Josef Kellndorfer | Earth Big Data LLC NA | Time-series Signatures and Classification of Repeat-Pass ALOS-2 and ALOS-4 PolInSAR Observations for Forest and Wetland monitoring | USA |
186 | Yu Zhou | Sun Yat-Sen University | Investigating creeping faults in northeastern Tibet and their frictional properties using ALOS-2 and Sentinel-1 data | China |
187 | Raffaella Guida | University of Surrey | Detection of Illegal Fishing in the Mauritius Exclusive Economic Zone (EEZ) and Marine Protected Area (MPA) with ALOS-2/-4 data | UK |
188 | Nguyen Viet Luong | Space Technology Institute, Vietnam Academy of Science and Technology | Research on using Japanese remotely sensed multi-sensor data and other data by artificial intelligence (AI) approach to forest classification, estimate carbon stock and CO2 sequestration by Vietnamese forests | Vietnam |
189 | Wenbin Xu | School of Geosciences and Info-physics, Central South University | Dual-polarization ALOS-2/4 SqueeSAR method and its application on the Mt. Changbai Volcano | China |
190 | Xiaying Wang | East China University of Technology | Study of the seasonal displacement of Northern Yellow River Delta and the triggered factors with InSAR technology | China |
191 | Sajana Maharjan | ICIMOD (International Centre for integrated Mountain Development) | Mapping of aboveground forest carbon stocks using ALOS PALSAR time series in Nepal and Bangladesh | Nepal |
192 | Jicang Wu | Tongji University | Extraction of crustal deformation in the eastern margin of Tibet Plateau by using SAR images and Big data technology | China |
193 | Richard Lucas | Aberystwyth University | Living Earth - Environmental Descriptors for Land Cover and Evidence-based Change Monitoring | UK |
194 | Andreas Braun | University of Tübingen | L-band radar satellite imagery supporting regional planning and decision making in Vietnam | Germany |
195 | Hiroshi Suzuki | kanazawa college of art | Development of an Art and science educational program that includes Art project workshops using ALOS-4, ALOS-2, and handmade CR. | Japan |
196 | Pablo J. Gonzalez | IPNA-CSIC (Spanish National Research Council) | Detecting and Modelling Volcanic Surface Deformation over African Volcanoes using ALOS-2 and ALOS-4 satellite radar interferometry | Spain |
197 | Remy Dominique | IRD GET | Ground deformation dynamic of large silicic systems in South America from PALSAR 2-3 and GNSS time series. | France |
198 | Hoonyol Lee | Kangwon National University | Analysis of earthquake on the Korean peninsula using SAR interferometry | Korea |
199 | Tülay Kaya Eken | Boğaziçi University, Kandilli Observatory and Earthquake Research Institute (KOERI) | Spatio-temporal monitoring of surface deformation along the North Anatolian Fault Zone and its potential interplay with physical properties in the crust | Turkey |
200 | Andrea Manconi | CERC, WSL-SLF | Relationship between Climate Change and Mass Movements in Alpine Regions | Switzerland |
201 | Hua Wang | Guangdong University of Technology | Crustal velocity field in Sichuan-Yunnan from multiple satellite observations | China |
202 | Ashlin Richardson | Province of British Columbia | BC Wildfire Service - Predictive Services Unit - Fuel Type Layer Project | Canada |
203 | Ying-Hui Yang | Chengdu University of Technology | Study on water injection induced earthquake for salt mining and shale gas mining in the Southern Sichuan Basin | China |
204 | Yumiko Ueyama | JR EAST Information System Company | Monitoring of Railway Facilities by SAR Time Series Analysis | Japan |
205 | Alberto Refice | Italian National Research Council (CNR) Institute for the Electromagnetic Sensing of the Environment (IREA) | Integrated use of multi-sensor, multi-frequency and multi-temporal SAR data for inundation monitoring and geomorphic process characterization | Italy |
206 | Pablo Andrés Euillades | Universidad Nacional de Cuyo | Volcanic deformation and change detection at the Calbuco and Planchon Peteroa active volcanoes of the Southern Andes Volcanic Zone (Argentina-Chile) using L-band SAR data. | Argentina |
207 | Tien Dat Pham | Macquarie University | Monitoring Blue Carbon Ecosystems across the Australian Coastline using Multi-temporal ALOS Data and Machine Learning | Australia |
208 | Melind Webster | University of Alaska Fairbanks | Sea Ice Trafficability | USA |
209 | Nikolaos Svigkas | Istituto Nazionale di Geofisica e Vulcanologia (INGV) | Surface deformation analysis based on InSAR data | Italy |
210 | Ahmet M. Akoğlu | Istanbul Technical University | Multiband InSAR Monitoring of the East Anatolian Fault (Turkey) | Turkey |
211 | Abdul Rashid Bin Mohamed Shariff | Universiti Putra Malaysia | Performance evaluation of machine learning methods for estimating above-ground mangrove biomass in the tropical region with an integration of ALOS-2 and ALOS-3 data | Malaysia |
212 | Tajdarul Hassan Syed | INDIAN INSTITUTE OF TECHNOLOGY KANPUR | Investigating spatio-temporal evolution of land subsidence in the Indo- Gangetic plain and its linkage with agricultural practices | India |
213 | Veronica M. Kwaterka | Environmental Research and Engineering Institute-IIIA | Remote Sensing Tools for Geomorphological and Flood Risk Analysis in the Lower Paraná fluvio-littoral complex | Argentina |
214 | Hyongki Lee | University of Houston | Forecasting Inundation Extents over Mekong Basin with L-band ALOS-2/-4 Imagery | USA |
215 | Teruhisa Komatsu | Japan Fisheries Resource Conservation Association | Development of an ALOS-3 multi-band image analysis method for mapping coastal habitat distribution towards SDG14: Focusing on the western Pacific region | Japan |
216 | Masayuki Matsuoka | Mie University | Geometric accuracy and pansharpening of ALOS-3/WISH for disaster monitoring in mountainous area | Japan |
217 | Tomas Fernandez-Steeger | Technische Universität Berlin | Identification and investigation of mass movements within tsunamigenic coastal landforms | Germany |
218 | Junichi Susaki | Kyoto University | Development of an algorithm for generation of DSM and detection of its change by using ALOS-3 data | Japan |
219 | Chinatsu Yonezawa | Tohoku University | Evaluations of the ALOS-3 Utilizations in agriculture, forestry and fisheries | Japan |
220 | Masahiko Nagai | Yamaguchi University | Applying Mirror Array Calibration Method for ALOS-3 | Japan |
221 | Hiromi Akita | Research Institute for Earth Science and Disaster Resilience | Development of a slope movement range mapping method based on high-resolution satellite image analysis, knowledge of slope movement mechanisms, and topographic interpretation technology | Japan |
222 | Wen Liu | Chiba University | Prediction and detection of landslides based on optical satellite images and AI techniques | Japan |
223 | Chiyuki Narama | Niigata University | Glacier disaster studies in Asian mountains based on ALOS data | Japan |
224 | Tohru Takahashi | National Institute of Technology, Oita College | Development of Education Programs with Active Utilization of the Earth Observation Data | Japan |
225 | Sultan Kocaman Gökceoglu | GeoAX Geo-Analytics and Exploration GmbH | 3D PROCESSING AND VALIDATION OF ALOS-3 IMAGERY | Switzerland |
226 | Lin Liu | The Chinese University of Hong Kong | Combining ALOS-2,3,4 Images Towards Automated Delineation of Glacial Fronts in Greenland Powered by Deep Learning | China |
227 | Lin Liu | The Chinese University of Hong Kong | Automatically Inventorying Rock Glaciers on the Tibetan Plateau Using ALOS-2/-3/-4 Data | China |
228 | Nam-Thang Ha | University of Agriculture and Forestry (Hue University) | Extent and dynamics of blue carbon ecosystems in the central of Vietnam | Vietnam |
229 | Ryoji Kawata | Kankyo Techno | Examination of Landfill Site Extraction Methods in Developing Countries | Japan |
Category:ALOS-4 CVST
As of Feb. 19th, 2024
No. | Name | Organization | Research Title | Country |
---|---|---|---|---|
001 | Ryo Natsuaki | The University of Tokyo | Validation of PALSAR-3 and PALSAR-2 interferometric analysis | Japan |
002 | Masanobu Shimada | Tokyo Denki University | Calibration and Validation of PALSAR-3 | Japan |
003 | Urs Wegmüller | Gamma Remote Sensing AG | ALOS-4 ionospheric correction and cross-sensor interferometry | Switzerland |
004 | Angel Matias Palomeque | CONAE | ALOS-4/PALSAR-3 external calibration and cross-validation with SAOCOM | Argentina |
005 | Bruce Chapman | Jet Propulsion Laboratory California Institute of Technology | Evaluation of NISAR calibration targets with ALOS-2 and ALOS-4 imagery | USA |
006 | Howard A. Zebker | Stanford University | Phase calibration and validation of ALOS-4 data products for InSAR applications | USA |
007 | Ridha Touzi | Canada Centre for Remote Sensing | Calibration of Polarimetric ALOS4-PALSAR3 and Validation Through Key Applications | Canada |
008 | Konstantinos Papathanassiou | Microwaves and Radar Institute German Aerospace Center | Polarimetric (PolSAR) and Polarimetric Interferometric (Pol-InSAR) calibration of ALOS-4 Data | Germany |
009 | Taku Ozawa | Research Institute for Earth Science and Disaster Resilience | Evaluation of PALSAR-3/InSAR for surface deformation detection | Japan |
010 | Cunren Liang | Peking University | InSAR algorithm development and product validation for ALOS-2 and the upcoming ALOS-4 satellites | China |
011 | Masato Furuya | Hokkaido University | Dispersive phases in PALSAR-2/3 InSAR | Japan |
012 | Eleanor Ainscoe | Nanyang Technological University | Maximizing potential of ALOS-4 for Disaster Response in South and Southeast Asia | Singapore |
013 | Zhu Wu | Chang’an University | Mapping of high-spatial-resolution VTEC and three-dimensional electron density by combing of SAR images and IRI model | China |
014 | Bochen Zhang | Shenzhen University | Mitigation of Ionospheric Effects in InSAR for Geohazards Monitoring with ALOS-4 data | China |
015 | Takenobu Toyota | Hokkaido University | Validation of the algorithm with L-band SAR data for detecting deformed sea ice area in the Arctic Ocean | Japan |
016 | Bernd Scheuchl | University of California Irvine | Validation of ALOS-4 PALSAR-3 for ice sheet applications 2 | USA |
017 | Paul Siqueira | University of Massachusetts | Comparison of ALOS-4 Calibration with NISAR | USA |
018 | Rou-Fei Chen | National Taipei University of Technology | A multi-temporal monitoring of slope susceptibility using ALOS-2 and ALOS-4 SAR interferometry | Taiwan |
019 | Chaoying Zhao | Chang'an University | Multi-dimensional and dynamic mapping of glacier movement using cross-platform ALOS-1 ALOS-2 and ALOS-4 SAR observations | China |