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Methane-detection-from-hyperspectral-imagery

H-MRCNN introduces fast algorithms to analyze large-area hyper-spectral information and methods to autonomously represent and detect CH4 plumes. This repo contains 2 methods for processing different type of data, Single detector works on 4-channels data and Ensemble detectors works on 432-channels raw hyperspectral data recorded from AVIRIS-NG instrument.

Deep Remote Sensing Methods for Methane Detection in Overhead Hyperspectral Imagery

Satish Kumar*, Carlos Torres*, Oytun Ulutan, Alana Ayasse, Dar Roberts, B S Manjunath.

Official repository of our WACV 2020 paper.

<img src="overview.gif" width="700">

This repository includes:

supported versions Library GitHub license

The whole repo folder structure follows the same style as written in the paper for easy reproducibility and easy to extend. If you use it in your research, please consider citing our paper (bibtex below)

Citing

If this work is useful to you, please consider citing our paper:

@inproceedings{kumar2020deep,
  title={Deep Remote Sensing Methods for Methane Detection in Overhead Hyperspectral Imagery},
  author={Kumar, Satish and Torres, Carlos and Ulutan, Oytun and Ayasse, Alana and Roberts, Dar and Manjunath, BS},
  booktitle={2020 IEEE Winter Conference on Applications of Computer Vision (WACV)},
  pages={1765--1774},
  year={2020},
  organization={IEEE}
}

Requirements

Installation

  1. Clone this repository
  2. Install dependencies
pip install -r requirements.txt

Single-detector

Running single-detector is quite simple. Follow the README.md in single_detector folder

single_detector/README.md

Ensemble-detector

For Running ensemble-detector we need some pre-processing. Follow the README.md in emsemble_detector folder

ensemble_detector/README.md