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Crop Classification with Multi-Temporal Satellite Imagery

This repo provides codes for crop classification using multi temporal satellite images. Crop classification is important for understanding the supplies of a crop. The satellite images can be helpful in monitoring crop growth and health in near real-time. Today, high-resolution satellite images are available at a daily frequency. With high-frequency data and multiple bands, it's possible to classify crops using deep learning.

There are many classical machine learning crop classification approaches available which use mono-temporal images and use the spectral and textural properties of a crop which results in relatively low accuracy but we’ll use the method suggested by Rose M. Rustowicz author of the paper

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Installation

conda create --name geo_py37 python=3.7
conda install gdal rasterio
conda install numpy pandas geopandas scikit-learn jupyterlab matplotlib seaborn xarray rasterstats tqdm pytest sqlalchemy scikit-image scipy pysal beautifulsoup4 boto3 cython statsmodels future graphviz pylint line_profiler nodejs sphinx

Dataset

You can download the dataset used in this repo from Gdrive

The dataset consists of 10 RapidEye satellite images provided by the planet.com and 1 USDA Cropland data layer which provides the pixel level crop labels.

Usage

  1. Run the data-preprocessing.ipynb to prepare the dataset for our models.
  2. To classify the crops based on NDVI index, run NDVI_based.ipynb
  3. Train the DL model using the script Crop_classification_DL_model.ipynb