Research Article
Using Multilayer Perceptron to Predict Forest Fires in Jiangxi Province, Southeast China
Table 1
Overview of independent variables.
| Influencing factors | Independent variable | Symbol | Variable type |
| Location | Longitude (°) | Lon | Continuous variable | Latitude (°) | Lat | Continuous variable | Slope (°) | Slo | Categorical variable | Aspect | Asp | Categorical variable |
| Climate | Average surface pressure (hPa) | Asp | Continuous variable | Average surface temperature (°C) | Ast | Continuous variable | Cumulative precipitation at 20–20 (mm) | Pre | Continuous variable | Average station pressure (hPa) | Spr | Continuous variable | Average relative humidity (%) | Arh | Continuous variable | Minimum relative humidity (%) | Mrh | Continuous variable | Hours of sunshine (h) | Suh | Continuous variable | Average temperature (°C) | Ate | Continuous variable | Daily maximum temperature (°C) | Mate | Continuous variable | Average wind speed (m/s) | Aws | Continuous variable | Maximum wind speed (m/s) | Mws | Continuous variable |
| Infrastructure | Distance between fire point and railway (m) | Ral | Continuous variable | The shortest distance from the fire point to the water system (m) | Wat | Continuous variable | Distance from fire point to highway (m) | Hig | Continuous variable | Closest distance from fire point to residential area (m) | Res | Continuous variable |
| Social humanity | Population | Pop | Continuous variable | GDP | GDP | Continuous variable | Special festival | Spe | Categorical variable |
| Vegetation | NDVI | NDVI | Continuous variable | EVI | EVI | Continuous variable |
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