At Brockmann Geomatics, I develop reproducible Python-based workflows and machine learning solutions for environmental and water analytics, contributing to international projects such as OASIS and AQUATIME that integrate Earth observation, AI, and scientific computing into decision-ready products.
An interdisciplinary learning path spanning remote sensing, data science, version control, and project management. These certified courses expand my technical fluency, coding confidence, and team-oriented delivery practices—shaping a well-rounded professional profile.
I design and maintain robust data delivery environments that convert raw geospatial and remote sensing inputs into operational intelligence. From scalable SAR raster pipelines to collaborative dashboards and feature‑rich fusion outputs.
A showcase of hackathons that amplified my expertise in Artificial Intelligence, machine learning, geospatial intelligence, LiDAR, and entrepreneurship—focusing on real-world data challenges and interdisciplinary teamwork in forestry and environmental domains.
At ICEYE, I contributed to the development of geospatial disaster response solutions by leveraging SAR-based analytics, raster processing, and change detection techniques. My work spanned the Hurricane Rapid Impact and Wildfire Insights products, where I generated scalable raster workflows and hexgrid analytics for building-level damage assessment and exposure mapping across affected regions.
ICEYE’s Hurricane Rapid Impact product provides near-real-time geospatial insights following hurricane landfall, with a focus on populated coastal areas across the USA and inhabited territories. My contributions focused on developing and deploying SAR-based raster analytics and hexgrid-level change detection to support rapid disaster response.
I excel in delivering tactical and strategic solutions within high-performing, cross-disciplinary teams by combining analytical rigor, clear communication, and outcome-oriented execution.
ICEYE’s Wildfire Insights delivers rapid building-level damage assessments using SAR satellite imagery. I contributed to this product by developing and refining SAR-based change detection methodologies and geospatial damage mapping to support near-real-time wildfire impact analysis.