Duy Nguyen Ba - Academia.edu (original) (raw)

Duy Nguyen Ba

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Papers by Duy Nguyen Ba

Research paper thumbnail of Department of Photogrammetry and Remote Sensing, Ha Noi University of Mining and Geology, Ha Noi, Viet Nam; Tel:+ 81-3-5620-0705 Email:* …

Research paper thumbnail of Comparison of Elevation Derived from InSAR Data with DEM from Topography map in Son Dong, Bac Giang, Viet Nam

ipcbee.com

Digital Elevation Models (DEMs) are used in many applications in the context of earth sciences su... more Digital Elevation Models (DEMs) are used in many applications in the context of earth sciences such as in topographic mapping, environmental modeling, rainfall-runoff studies, landslide hazard zonation, seismic source modeling, etc. During the last years multitude of scientific applications of Synthetic Aperture Radar Interferometry (InSAR) techniques have evolved. It has been shown that InSAR is an established technique of generating high quality DEMs from space borne and airborne data, and that it has advantages over other methods for the generation of large area DEM. However, the processing of InSAR data is still a challenging task. This paper describes InSAR operational steps and processing chain for DEM generation from Single Look Complex (SLC) SAR data and compare a satellite SAR estimate of surface elevation with a digital elevation model (DEM) from topography map.

Research paper thumbnail of COMPARISION OF ELEVATION DERIVED FROM INSAR DATA WITH DEM FROM TOPOGRAPHY MAP

aars.org

Digital Elevation Models (DEMs) are used in many applications in the context of earth sciences su... more Digital Elevation Models (DEMs) are used in many applications in the context of earth sciences such as in topographic mapping, environmental modelling, rainfall-runoff studies, landslide hazard zonation, seismic source modelling, etc. During the last years multitude of scientific applications of Synthetic Aperture Radar Interferometry (InSAR) techniques have evolved. It has been shown that InSAR is an established technique of generating high quality DEMs from spaceborne and airborne data, and that it has advantages over other methods for the generation of large area DEM. However, the processing of InSAR data is still a challenging task. This paper describes InSAR operational steps and processing chain for DEM generation from Single Look Complex (SLC) SAR data and compare a satellite SAR estimate of surface elevation with a digital elevation model (DEM) from Topography map. The operational steps are performed in three major stages: Data Search, Data Processing, and product Validation. The Data processing stage is further divided into five steps of Data Pre-Processing, Co-registration, Interferogram generation, Phase unwrapping, and Geocoding. The Data processing steps have been tested with ERS 1/2 data using Delft Object-oriented Interferometric (DORIS) InSAR processing software. Results of the outcome of the application of the described processing steps to real data set are presented.

Research paper thumbnail of Department of Photogrammetry and Remote Sensing, Ha Noi University of Mining and Geology, Ha Noi, Viet Nam; Tel:+ 81-3-5620-0705 Email:* …

Research paper thumbnail of Comparison of Elevation Derived from InSAR Data with DEM from Topography map in Son Dong, Bac Giang, Viet Nam

ipcbee.com

Digital Elevation Models (DEMs) are used in many applications in the context of earth sciences su... more Digital Elevation Models (DEMs) are used in many applications in the context of earth sciences such as in topographic mapping, environmental modeling, rainfall-runoff studies, landslide hazard zonation, seismic source modeling, etc. During the last years multitude of scientific applications of Synthetic Aperture Radar Interferometry (InSAR) techniques have evolved. It has been shown that InSAR is an established technique of generating high quality DEMs from space borne and airborne data, and that it has advantages over other methods for the generation of large area DEM. However, the processing of InSAR data is still a challenging task. This paper describes InSAR operational steps and processing chain for DEM generation from Single Look Complex (SLC) SAR data and compare a satellite SAR estimate of surface elevation with a digital elevation model (DEM) from topography map.

Research paper thumbnail of COMPARISION OF ELEVATION DERIVED FROM INSAR DATA WITH DEM FROM TOPOGRAPHY MAP

aars.org

Digital Elevation Models (DEMs) are used in many applications in the context of earth sciences su... more Digital Elevation Models (DEMs) are used in many applications in the context of earth sciences such as in topographic mapping, environmental modelling, rainfall-runoff studies, landslide hazard zonation, seismic source modelling, etc. During the last years multitude of scientific applications of Synthetic Aperture Radar Interferometry (InSAR) techniques have evolved. It has been shown that InSAR is an established technique of generating high quality DEMs from spaceborne and airborne data, and that it has advantages over other methods for the generation of large area DEM. However, the processing of InSAR data is still a challenging task. This paper describes InSAR operational steps and processing chain for DEM generation from Single Look Complex (SLC) SAR data and compare a satellite SAR estimate of surface elevation with a digital elevation model (DEM) from Topography map. The operational steps are performed in three major stages: Data Search, Data Processing, and product Validation. The Data processing stage is further divided into five steps of Data Pre-Processing, Co-registration, Interferogram generation, Phase unwrapping, and Geocoding. The Data processing steps have been tested with ERS 1/2 data using Delft Object-oriented Interferometric (DORIS) InSAR processing software. Results of the outcome of the application of the described processing steps to real data set are presented.

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