Detection and Predicting Air Pollution Level in a Specific City using Deep Learning
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Abstract
Air pollution affects millions of people worldwide, making it a growing issue. Deep learning can identify and forecast metropolitan air pollution. Deep learning needs a massive dataset of air quality measurements and meteorological factors to predict city air pollution levels. Government monitoring stations and citizen scientific programs collect this data. Once we have our dataset, we can apply deep learning to develop a model that predicts air pollution levels. Temperature, humidity, wind speed, and air quality data will be used to predict future air pollution levels. Predicting air pollution using the LSTM network is popular. This neural network works well with air quality time-series data. The LSTM network's long-term data learning is essential for accurate air pollution predictions. We would pre-process our data to prepare it for an LSTM network to predict air pollution. Scaling, splitting, and encoding data may be needed. Train the LSTM network using backpropagation and gradient descent on our dataset. Adjusting the network's weights and biases would lessen the air pollution gap. After training, the network can predict city air quality. Inputting current meteorological and environmental factors may help accomplish this aim and deliver timely predictions. Deep learning can detect and predict urban air pollution. LSTM neural network algorithms may accurately forecast complex air quality data patterns, providing vital information about our planet's health.
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