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Publication
Air pollution PM10 forecasting maps in the maritime area of the Bay of Algeciras (Spain)
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Advisor(s)
Abstract(s)
Predicting the levels of a pollutant in a given area is an open problem, mainly because
historical data are typically available at certain locations, where monitoring stations are located, but
not at all locations in the area. This work presents an approach based on developing predictions at
each of the points where an immission station is available; in this case, based on shallow Artificial
Neural Networks, ANNs, and then using a simple geostatistical interpolation algorithm (Inverse
Distance Weighted, IDW), a pollutant map is constructed over the entire study area, thus providing
predictions at each point in the plane. The ANN models are designed to make 1 h ahead and 4 h
ahead predictions, using an autoregressive scheme as inputs (in the case of 4 h ahead as a jumping
strategy). The results are then compared using the Friedman and Bonferroni tests to select the best
model at each location, and predictions are made with all the best models. In general, to the 1 h
ahead prediction models, the optimal models typically have fewer neurons and require minimal
historical data. For instance, the best model in Algeciras has an R of almost 0.89 and consists of 1
hidden neuron and 3 to 5 lags, similar to Colégio Los Barrios. In the case of 4h ahead prediction,
Colégio Carteya station shows the best model, with an R of almost 0.89 and a MSE of less than 240,
including 5 hidden neurons and different lags from the past. The results are sufficiently adequate,
especially in the case of predictions 4 h into the future. The aim is to integrate the models into a tool
for citizens and administrations to make decisions.
Description
Keywords
Air pollution forecasting Data fusion Image processing Pattern recognition
Citation
Journal of Marine Science and Engineering 12 (3): 397 (2024)