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The traditional in-situ soil analysis methods are laborious & inefficient, limiting scalability and hindering timely access to crucial soil data for optimal fertilization by farmers. In the amazing challenge, we tried to predict soil parameters(Phosphorous, Potassium, Magnesium and pH)from hyperspectral satellite images. http://tinyurl.com/mw6p25tr
ITU-GeoAI-Challenge/Estimating-Soil-Parameters-from-Hyperspectral-Images-by-ITU-2023
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1. The environement used was anaconda on my local 16gb ram laptop 2. All files should reside in one folder 3. Run the codes in the following manner: a) 1_BASELINES_Final-HIST.ipynb (approx 5 minutes)-this generates "HIST.csv" file b) 1_BASELINES_Final-LGBM.ipynb (approx 3 minutes)-this generates "LGBM.csv" file c) ENSEMBLE.ipynb (approx 1 minute)-this generates "LGB_REDUCED_50_-HIST_100_.csv" file 4. This should be able to generate NB: If you would wish to generate the "test_df.csv" and "train_df.csv" used in this work, you may wish to run the "Data Prep.ipynb" This was run on free kaggle GPUP100 because of the challenges the free google colab gpu posed.
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The traditional in-situ soil analysis methods are laborious & inefficient, limiting scalability and hindering timely access to crucial soil data for optimal fertilization by farmers. In the amazing challenge, we tried to predict soil parameters(Phosphorous, Potassium, Magnesium and pH)from hyperspectral satellite images. http://tinyurl.com/mw6p25tr
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