/Acoustic_Indices

Primary LanguagePythonGNU General Public License v3.0GPL-3.0

Acoustic_Indices

Acoustic_Indices is a Python library to extract global acoustic indices from an audio file for use as a biodiversity proxy, within the framework of Ecoacoustics.

Prerequisites

Features and indices

  • Read WAV files (using scipy)

  • Features extraction from Soundscape Ecology

    • Acoustic Complexity Index
    • Acoustic Diversity Index
    • Acoustic Evenness Index
    • Bioacoustic Index
    • Normalized Difference Sound Index
    • Spectral Entropy
    • Temporal Entropy
    • Number of Peaks
    • Wave Signal to Noise Ratio
  • Spectral features extraction

    • Spectral centroid
    • Spectrogram
    • Noise removed spectrogram
  • Temporal features extraction

    • RMS energy
    • Zero Crossing Rate

Usage

$python main_test_indices.py

Contributing

  1. Fork it!
  2. Create your feature branch: git checkout -b my-new-feature
  3. Commit your changes: git commit -am 'Add some feature'
  4. Push to the branch: git push origin my-new-feature
  5. Submit a pull request :D

History

Versions:

  • 0.4: Port from Python 2 to Python 3
  • 0.3: New features: wave SNR, spectro noise removed, NB_peaks.
  • 0.2: yaml configuration file. Object oriented audio file and index.
  • 0.1: First commit

Credits

The following indices are based on the following papers and inspired in part by the R packages [seewave] (https://cran.r-project.org/package=seewave) and [soundecology] (https://cran.r-project.org/package=soundecology)

  • Acoustic Complexity Index - Pieretti et al. (2011)
  • Acoustic Diversity Index - Villanueva-Rivera et al. (2011)
  • Acoustic Evenness Index - Villanueva-Rivera et al. (2011)
  • Bioacoustic Index - Boelman, et al. (2007)
  • Normalized Difference Sound Index - Kasten et al. (2012)
  • Spectral Entropy - Sueur et al. (2008)
  • Temporal Entropy - Sueur et al. (2008)

Boelman NT, Asner GP, Hart PJ, Martin RE. 2007. Multi-trophic invasion resistance in Hawaii: bioacoustics, field surveys, and airborne remote sensing. Ecological Applications 17: 2137-2144.

Farina A, Pieretti N, Piccioli L (2011) The soundscape methodology for long-term bird monitoring: a Mediterranean Europe case-study. Ecological Informatics, 6, 354-363.

Kasten, E.P., Gage, S.H., Fox, J. & Joo, W. (2012). The remote environmental assessment laboratory's acoustic library: an archive for studying soundscape ecology. Ecological Informatics, 12, 50-67.

Pieretti N, Farina A, Morri FD (2011) A new methodology to infer the singing activity of an avian community: the Acoustic Complexity Index (ACI). Ecological Indicators, 11, 868-873.

Sueur, J., Pavoine, S., Hamerlynck, O. & Duvail, S. (2008) - Rapid acoustic survey for biodiversity appraisal. PLoS ONE, 3(12): e4065.

Villanueva-Rivera, L. J., B. C. Pijanowski, J. Doucette, and B. Pekin. 2011. A primer of acoustic analysis for landscape ecologists. Landscape Ecology 26: 1233-1246. doi: 10.1007/s10980-011-9636-9.

This research was generously funded by Leverhulme Research Project Grant RPG-2014-403

License

GPL V 3 - see LICENSE.txt for more info