SpectroMap

SpectroMap is a peak detection algorithm that computes the constellation map for a given signal


Keywords
audio-analysis, audio-fingerprinting, audio-processing, fingerprinting, python, signal-processing
License
GPL-3.0
Install
pip install SpectroMap==1.0.0

Documentation

SpectroMap

python-version pypi-version license Downloads CodeFactor

SpectroMap is a peak detection algorithm that computes the constellation map (or audio fingerprint) of a given signal.

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An example of the SectroMap implementation can be found in our research paper:

L贸pez-Garc铆a, A., Mart铆nez-Rodr铆guez, B., Liern, V. (2022). A Proposal to Compare the Similarity Between Musical Products. One More Step for Automated Plagiarism Detection? In: Montiel, M., Agust铆n-Aquino, O.A., G贸mez, F., Kastine, J., Lluis-Puebla, E., Milam, B. (eds) Mathematics and Computation in Music. MCM 2022. Lecture Notes in Computer Science(), vol 13267. Springer, Cham. https://doi.org/10.1007/978-3-031-07015-0_16

Installation

You can install the SpectroMap library from GitHub:

git clone https://github.com/Aaron-AALG/spectromap.git
python3 -m pip install -e spectromap

You can also install it directly from PyPI:

pip install spectromap

Usage

This packages contains the spectromap object that manages the full process of audio fingerprinting extraction. Given a signal Y, we just have to instantiate the class with Y and the corresponding kwargs (if needed).

spectrogram object

An example to apply SpectroMap over a signal is:

import numpy as np
from spectromap.spectromap import *

y = np.random.rand(44100)
kwargs = {'fs': 22050, 'nfft': 512, 'noverlap':64}

# Instantiate the SpectroMap object
SMap = spectromap(y, **kwargs)

# Get the spectrogram representation plus its time and frequency bands
f, t, S = SMap.get_spectrogram()

# Extract the topological prominent elements from the spectrogram, known as "Peak detection".
# We get the coordinates (time, freq) of the peaks and the matrix with just these peaks.
fraction = 0.15 # Fraction of spectrogram to compute local comparisons
condition = 2   # Axis to analyze (0: Time, 1: Frequency, 2: Time+Frequency)
id_peaks, peaks = SMap.peak_matrix(fraction, condition)

# Get the peaks coordinates as as (s, Hz, dB)-array.
extraction_t_f_dB = SMap.from_peaks_to_array()

peak_search function

In case you desire to compute the spectrogram by yourself, then you can make use of the peak search function instead.

from spectromap.spectromap import *

fraction = 0.05 # Fraction of spectrogram to compute local comparisons
condition = 2   # Axis to analyze (0: Time, 1: Frequency, 2: Time+Frequency)
id_peaks, peaks = peak_search(spectrogram, fraction, condition)

Cite this work

If you use SpectroMap in your research I would appreciate a citation to the following paper:

@misc{https://doi.org/10.48550/arxiv.2211.00982,
  doi = {10.48550/ARXIV.2211.00982},
  url = {https://arxiv.org/abs/2211.00982},
  author = {L贸pez-Garc铆a, Aar贸n},
  title = {SpectroMap: Peak detection algorithm for audio fingerprinting},
  publisher = {arXiv},
  year = {2022},
  copyright = {Creative Commons Attribution 4.0 International}
}