3D mapping of fire hotspot in East Rinjani forest area using GIS and remote sensing

Ari Hernawan, Wahyu Rahmaniar, Jia Ching Wang, Wirarama Wedashwara, Andy Hidayat Jatmika, Muhammad Ari Rifqi, Feisal Dirgantara

Research output: Contribution to journalConference articlepeer-review

Abstract

Wildfires in Indonesia reached their peak during the drought of 2015, with estimated burnt forest and land of up to 2.6 million hectares. During the dry season of 2020, high temperatures and high winds were responsible for losing 659.02 hectares from forest fires in Lombok Island. The fires on the Island caused economic hardship, disrupted commerce, and led to short and long-term health problems for most of the population. This study aimed to use Geographic Information Systems (GIS) and Remote Sensing (RS) to map forest fire hotspots, establish fire brigades, and suppress forest recovery programs. Wildfire annual data were acquired from Satu Data NTB website, DEM from ASTER Global Elevation Model, and NDVI from Sentinel2B. DEM and NDVI were calculated and projected into 3D objects. The Wildfire geolocations were then added to 3D objects and the scale according to wildfire level. The performance of forest recovery is measured using the development of NDVI (Normalized Difference Vegetation Index) in affected fire areas. Results show the overall vegetation index increases in the area where fire forest has occurred. Combined RS and GIS efforts show the prospective application to evaluate forest fire control and recovery programs' performance.

Original languageEnglish
Article number050013
JournalAIP Conference Proceedings
Volume3026
Issue number1
DOIs
StatePublished - 18 Mar 2024
Event7th International Conference on Science and Technology: Smart Innovation Research on Science and Technology for a Better Life, ICST 2022 - Hybrid, Mataram City, Indonesia
Duration: 14 Nov 2022 → …

Keywords

  • Geographic Information System
  • Normalized Difference Vegetation Index
  • Remote Sensing
  • Wildfire

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