A forest fire is unplanned and uncontrollable and can occur by lightning or human carelessness in forests, grasslands or shrubbery (Government of Canada, 2020). The vast majority of forest fires are human-caused, however dry climate, hot temperatures, lightning, and volcanic eruption can also lead to their occurrence (National Park Service, 2018). The past decade of climate change has only exacerbated the amount of forest fires, leading to more frequent and extreme occurences.
Wildfire agencies use many variables to indicate an imminent wildfire and the evolution of machine learning has provided us the ability to predict future events by analyzing these variables. Thus, we pose the predictive question: do certain variables allow us to determine if a forest fire has or will occur and if so, how accurate will they be?
To support our hypothesis, we used a dataset on Algerian Forest Fires from UCI (Faroudja & Izeboudjen, 2020). The dataset contains a culmination of forest fire observations and data in two regions of Algeria: the Bejaia region and the Sidi Bel-Abbes region. The timeline of this dataset is from June 2012 to September 2012. In this project, we focused on whether certain weather characteristics could predict forest fires in these regions using the K-NN Classification algorithm and later, we evaluated the accuracy of the model.
In this repository, you will find:
- Forest_Fire_Project.ipynb: For the full project with narration.
- .ipynb_checkpoints: For previous versions of Forest_Fire_Project.ipynb.
The dataset used can be found here from the UCI Machine Learning Repository.
Government of Canada. (2020). Forest fires. Retrieved from https://www.nrcan.gc.ca/our-natural-resources/forests-forestry/wildland-fires-insects-disturban/forest-fires/13143.
National Park Service. (2018). Wildfire Causes and Evaluations. Retrieved from https://www.nps.gov/articles/wildfire-causes-and-evaluation.htm#:~:text=Nearly%2085%20percent*%20of%20wildland,and%20intentional%20acts%20of%20arson.&text=Lightning%20is%20one%20of%20the%20two%20natural%20causes%20of%20fires.
Faroudja, A., Izeboudjen, N. (2020). Predicting forest fire in Algeria using data mining techniques: Case study of the decision tree algorithm. International Conference on Advanced Intelligent Systems for Sustainable Development, 363-370. Retrieved from https://link.springer.com/chapter/10.1007/978-3-030-36674-2_37