TY - EJOUR
AU - Heidari, Farzad Bolouk
AU - Arfania, Ramin
PY - 2023
DA - November
TI - Wildfire Susceptibility Mapping using NBR Index and Frequency Ratio Model
T2 - Geoconservation Research (Geoconserv. Res.)
VL - 5
L1 - https://oiccpress.com/geoconservation-research/article/wildfire-susceptibility-mapping-using-nbr-index-and-frequency-ratio-model/
DO - 10.30486/gcr.2022.1961153.1107
N2 - Quantifying fire hazards in natural areas and their spatial patterns are essential for developing appropriate fire management strategies, especially in countries with limited historical data on past fires. In this study, a fire hazard map for the Andika region of Iran was constructed by examining the correlation of past fires with the criteria of topography, meteorology, land cover, and human factors. The locations of eight-year fire points from 2013 to 2020 of Nova satellite sensor VIIRS were received and the fire map of each was constructed using the NBR (Normalized Burn Ratio). The wildfire events distribution maps were randomly divided into 70 and 30 percent ratios for training (modeling) and testing (validation) data, respectively. Using the frequency ratio, a fire hazard map of the region was created. Four fire hazard areas ranging from very high to low were identified. The results of past fires and the frequency ratio model showed that in the study area, land cover (2.982), elevation (2.778), and annual precipitation (2.419) have the greatest prediction rate and influence on fire occurrence. The results also showed that a large proportion of past fires (71.37%) were located in high and very high-risk areas. The evaluation results of the area under the curve method showed an accuracy of 71.1% using evaluation data and 74.4% using training data, which can be considered desirable. The small differences between the validation results using test and training data indicate an unbiased fire hazard map.
IS - 1
PB - OICC Press
KW - Remote sensing, Wildfire, GIS, Fire Hazard, Frequency Ratio, NBR index 
EN -