GIS Specialist with 9+ years of experience in spatial data management, geospatial analysis and mapping for spatial planning, land-use enforcement, flood risk assessment, and infrastructure development across various regions in Indonesia. Skilled in compiling and validating RTRW data, mapping Lahan Sawah Dilindungi (LSD), conducting aerial imagery processing, and performing technical and legal studies on spatial-use violations. Proficient in ArcGIS, ArcGIS Pro, QGIS, Agisoft, Google Earth Engine, and spatial databases, with strong ability to transform complex geospatial data into actionable insights, thematic maps, and reports that support policymaking, legal enforcement, and sustainable land management.
- Majoring in Geography
- Faculty of Mathematics and Natural Science
- GPA (3.26)
- Staff GIS Ministry of Agrarian Affairs and Spatial Planning (Directorat General of Spatial Planning)
- Staff GIS Ministry of Agrarian Affairs and Spatial Planning (Directorat General of Spatial Development Control)
- Staff GIS BPBD DKI Jakarta
- Ms. Office
- Google Earth Engine
- ArcGis
- Qgis
- Global Mapper
- ENVI
- Quantitative Research
- SPSS
Here are several key projects I have worked on during my career as a GIS Specialist, showcasing my expertise in spatial data management, geospatial analysis, and map production.
I am also passionate about learning Python to automate workflows, perform advanced geospatial analysis, and develop reproducible solutions for geographic problems.
Geospatial analysis to detect land-use changes in protected forest areas used for housing development.
Tools: ArcGIS, Remote Sensing, Spatial Overlay Analysis
Contribution: Collected data, performed overlay analysis, and created thematic maps.
Outcome: Produced maps used as spatial evidence in land-use enforcement and policy-making.
Mapped and built a structured spatial database for planting areas and infiltration wells to restore critical upstream zones misused for illegal development.
Tools: ArcGIS, Geodatabase Design, GPS Field Data Collection
Contribution: Designed database structure, integrated field data, and produced thematic maps.
Outcome: Supported reforestation and infiltration well construction programs for watershed recovery.
Produced flood frequency maps to support flood risk reduction measures and evacuation route planning.
Tools: ArcGIS, Hydrological Analysis, Python (learning)
Contribution: Analyzed rainfall data, processed flood frequency analysis, and visualized flood-prone areas.
Outcome: Delivered flood risk maps that guided installation of evacuation signage and mitigation planning.
Analyzed and mapped potential industrial and urban development areas along the Trans-Sumatra Toll Road.
Tools: ArcGIS, Buffer & Overlay Analysis, Spatial Statistics
Contribution: Conducted spatial analysis on buffer zones around toll roads and compiled thematic maps.
Outcome: Delivered decision-support maps for regional development and investment planning.
Transformed tabular monitoring data of spatial plan performance into geospatial layers and produced thematic maps to visualize compliance levels across provinces.
Tools: ArcGIS, Geodatabase, Spatial Join, Symbolization
Contribution: Cleaned tabular data, created spatial joins, and visualized compliance indicators.
Outcome: Provided an interactive and visual representation of spatial planning performance used for national reporting and evaluation.
Corrected and standardized spatial plan topology data for Papua Districts as input for the national GISTARU WebGIS platform.
Tools: ArcGIS, Topology Checker, Geodatabase Editing
Contribution: Corrected topology errors and standardized attribute schema.
Outcome: Delivered clean and standardized spatial plan datasets for public access via GISTARU.
Conducted field survey and mapped flood evacuation sites across multiple districts in Jakarta to support disaster preparedness.
Tools: ArcGIS, GPS Survey, Field Verification
Contribution: Collected field data, digitized evacuation locations, and created evacuation maps.
Outcome: Provided actionable maps to improve emergency response and evacuation planning.
- Python packages: geemap | leafmap
- Google Earth Engine: Awesome-GEE | earthengine-py-notebooks | qgis-earthengine-examples | earthengine-apps