HelioWebGeospatial Information Authority of Japan
flowchart
I[Geospatial Information Authority of Japan]
PI["Parent Institutions (0)"]
CI["Child Institutions (0)"]
AW["Affiliated Works (68)"]
CA["Linked Collaborating Authors (5)"]
I== skos:broader ==>PI
CI== skos:broader ==>I
AW== affil ==>I
AW== author ==>CA
click PI "#parent-institutions"
click CI "#child-institutions"
click AW "#affiliated-works"
click CA "#collaborating-authors"
Parent Institutions [?]
Child Institutions [?]
Affiliated Works
sorted by decreasing year, and then by display-name
- Consistency and Inconsistency Between Geodetic and Geologic Fault Slip Rates in Central Japan
- Gravity change observed during 2004-2009 in the Tokai slow slip area and the possibility of detecting high-pressure-fluid flow
- Rapid Detection of Coseismic Displacements with PALSAR ScanSAR-ScanSAR Interferometry
- Towards fully automated processing of VLBI sessions - results from ultra-rapid UT1 experiments
- Coseismic and postseismic deformation of the 2011 Tohoku earthquake observed from geodetic data and slip models
- Incorporating three dimensional shapes of buildings and structures in tsunami inundation modeling of the 2011 Tohoku-oki earthquake
- Coseismic deformation due to the 2011 Tohoku earthquake: influence of 3-D plate structure around Japan
- Parameters of seismic fault of the 11/03/2011 M9.0 Tohoku-oki earthquake as seen from the ionosphere
- How GNSS Earth Observation Network System (GEONET) in Japan Contributes to Geohazards Mitigation
- Last 900 ka river longprofile changes controlled by Yoro fault activity and glacial sea-level changes, Nobi plain, central Japan
- Measuring Crustal Deformation Caused by the Nepal (Gorkha) Earthquake Using ALOS-2 SAR Interferometry
- Near-field and far field effects of elastic structure of Japan on the slip distribution of the 2011 Tohoku earthquake
- Recent development status of the quasi real-time crustal deformation monitoring based on the onshore real-time GNSS data and offshore GNSS/Acoustic measurement in Japan
- Surface Mass Balance around the Japanese Antarctic Station, Syowa, in East Antarctica
- Temperature- and stress-dependent rheologic structure beneath Japan inferred from postseismic displacements following the 2011 Tohoku-oki earthquake
- A framework for global terrain classification using 250-m DEMs to predict geohazards
- Detailed ground surface displacement and fault ruptures of the 2016 Kumamoto Earthquake revealed by SAR and GNSS data
- An improved gravimetric geoid model for Japan based on the Stokes-Helmert scheme with a deterministically modified Stokes' kernel
- Continuous monitoring of a magma chamber's pressure changes using geodetic data: Time-dependent inversion with Ensemble Kalman Filter (EnKF)
- Global terrain classification using Multiple-Error-Removed Improved-Terrain (MERIT) to address susceptibility of landslides and other geohazards
- InSAR-detected Local Ground Inflation Prior to Small Phreatic Eruption
- Possibility of the real-time dynamic strain field monitoring deduced from GNSS data: case study of the 2016 Kumamoto earthquake sequence
- A Fractal Future for Earthquake Slip Inversions
- Analysis of the 25th February 2018 M<SUB>w</SUB>7.5 Papua New Guinea Southern Highland Fold-and-Thrust Belt Earthquake using ALOS2 and GNSS Observations
- Development of terrain classifications as a proxy to estimate VS30
- Geomorphological and geological characteristics of triggered surface faults associated with 2016 Kumamoto Earthquake sequence around the northwest of the outer rim of the Aso caldera, southwestern Japan
- Interannual crustal load deformations induced by non-tidal oceanic mass variations around Japan
- Launch of an airborne gravity survey project towards the new geoid-based vertical datum in Japan
- Tsunami potential of the 2018 Sulawesi earthquake from GNSS constrained source mechanism
- Caldera ring-faulting during the 2015 Ambrym dike intrusion and the search for the missing deflation source
- Crustal Deformation and its Source of Meakandake and Oakandake Volcanoes, Inferred from the 2016-2017 Volcanic Activity
- Development of PPP processing system of Japan and its evaluation by comparison with GEONET routine analysis system
- Effective estimation of gravitational deformation zone in wide mountainous area in Japan using DEM and convolutional neural network (CNN)
- Generation of segment data using 30-m DEMs as the base material of future hazard maps
- Learning support of geography and geology using Minecraft
- Persistent contraction and time-dependent slip behavior around the northern Itoigawa-Shizuoka Tectonic Line fault system, central Japan: its implication for tectonics and seismogenesis
- Towards InSAR- and GNSS-Derived Seismic Hazard Models for Anatolia and the Alpine-Himalaya Belt
- A high-resolution crustal velocity field for the Alpine-Himalayan Seismic Belt from Sentinel-1 InSAR and GNSS
- A new superconducting filter for S-band observation with VGOS broadband feed at Ishioka VLBI station
- Comprehensive Fault Slip Variation Effects on Deformation Partitioning in the Eastern Turkish Plateau
- Detection of long-term and short-term slow slip events by the network filter using GNSS data in Shikoku, Japan
- Development of a Routine Analysis System of GEONET by PPP-AR
- Development of novel ground-based microwave radiometer for earth science -field experiments of the wide-band receiver-
- Evaluation of a crustal deformation model in terms of maintaining the Japanese geodetic datum
- GGOS Japan: 7-year history and hot topics
- Geoid determination using airborne gravity data in the Kanto area of Japan
- Nationwide urban ground deformation monitoring in Japan using Sentinel-1 LiCSAR products and LiCSBAS
- Phase Bias in short-interval interferograms: characteristics and mitigation strategies
- Sustained Long-lived Volcanic Subsidence at Timanfaya, Lanzarote, from InSAR Time Series
- Tectonic strain rates across the central Alpine-Himalayan Belt from Sentinel-1 InSAR and GNSS observations, and implications for seismic hazard
- The Airborne Gravity Survey for Development of a New Precise Gravimetric Geoid Model in Japan
- The Development of the New Analysis Strategy of GEONET
- The Global Geodetic Observing System (GGOS) - its Role and Activities
- The LiCSAR automated InSAR data processing system: Latest Developments and Future Prospects
- Effect of lateral topographic density variations on subsurface structure estimation by gravity inversion a case study in Aso Caldera, Japan
- Monitoring Active Volcanoes in Japan Using InSAR Time Analysis System with ALOS-2 Data
- Quality control of airborne gravity survey in Japan
- The Global Geodetic Observing System (GGOS) - infrastructure underpinning science and society -
- Time dependent modeling of the magma chambers in Aira caldera and Kirishima volcanoes, Japan
- Towards an operational secular deformation modelling to more accurately maintain the Japanese semi-dynamic datum
- What controlled the fault ruptures in the final stage?: A comparison of SAR-derived fault slips with gravity-inferred density structures for the 2016 Kumamoto earthquake in Japan
- Deformation of Reclaimed Valleys in Sendai City during the 2011 Tohoku-Oki Earthquake Detected by InSAR and Its Background Factors
- GGOS's Geodetic Information Portal: Linking Geodesy and Society
- Geoid Slope Validation of a Precise Gravimetric Geoid Model for Japan by GNSS/leveling Survey in 2021
- Precise GNSS Orbit and Clock Determination Using MADOCA Software
- The Global Geodetic Observing System (GGOS) - infrastructure for sustainable earth observation -
- Toward Improvements in REGARD: a Real-time Finite Fault Model Estimation System Based on Japan's Dense GNSS Array Network GEONET
- Towards secular crustal deformation transformation combining national GNSS CORS and InSAR time series analysis in Japan