I’ve applied remote sensing techniques across a wide range of environmental monitoring projects, from assessing urban heat islands and mapping volcanic deformation with InSAR, to modeling forest structures using LiDAR and developing web-based applications on Google Earth Engine. My work integrates multi-sensor datasets, geospatial analytics, and field validation to produce actionable insights for climate, disaster, and land surface studies.
My work in SAR focuses on advancing techniques like polarimetric decomposition, calibration, and 3D tomographic imaging to better characterize land and forest structure. Leveraging datasets from platforms such as UAVSAR and TerraSAR-X, I’ve investigated frequency-dependent scattering, refined PolSAR calibration workflows, and developed vertical profiling methods using PolSAR tomography. These efforts support applications in ecosystem monitoring, geophysical modeling, and the interpretation of complex surface features.
My work with InSAR focuses on detecting and analyzing ground displacement using radar remote sensing techniques such as DInSAR and PSInSAR. I’ve developed and implemented workflows for processing satellite SAR data, enabling accurate monitoring of subsidence, tectonic motion, and anthropogenic changes. These efforts have supported environmental and geophysical studies across varied terrains using Sentinel-1 and TerraSAR-X datasets.
A diverse educational journey spanning geospatial sciences, biomedical instrumentation, and electronics engineering—equipping me with analytical depth, technical versatility, and interdisciplinary fluency.