Foobar2000:Components/BPM Analyser (foo bpm): Difference between revisions

From Hydrogenaudio Knowledgebase
(Updated infobox with "foobar2000_architecture" and "foobar2000_legacy" values.)
mNo edit summary
Line 1: Line 1:
{{Foobar Component Infobox
{{infobox foobar2000 component
| name                    = BPM Analyser
| name                    = BPM Analyser
| module_name            = foo_bpm
| module_name            = foo_bpm

Revision as of 14:13, 5 August 2023

BPM Analyser

foo_bpm
Developer(s) Michael Balzer
Holger Stenger (foosion)
Repository GitHub
Release information
Initial release
Stable release 0.2.4.6 (June 24, 2014)
Preview release
foobar2000 compatibility
Architecture x86 32-bit
Minimum version 1.1
Maximum version
UI module(s) N/A
Additional information
Use Tagging
License
Discussion thread {{{discussion_thread}}}
View all legacy components

The BPM Analyser component can be used for calculating the BPM (beats per minute) of any tracks in foobar2000.

Usage

The component can be used to automatically or manually detect a song's BPM.

To automatically calculate the BPM:

  1. Highlight one or more files in your playlist. Right-click on them and select "BPM Analysis -> Automatically analyse BPMs". Note: Songs already containing a BPM tag will not be scanned.
  2. After the analysis has completed, a results dialog will be displayed.
  3. If a BPM result is obviously double or half of its true BPM, select it in the list of results, then click the Double BPM or Halve BPM buttons. Multiple results can be selected using Ctrl+click.
  4. Click the Update files button when done.

To manually calculate the BPM:

  1. Right-click a song in the playlist and select "BPM Analysis -> Manually tap BPM for current track"
  2. A small window will be displayed with a large Tap Here button.
  3. Begin playback of a song.
  4. Click on the Tap Here button or hit the spacebar to the beat of the music. The current calculated BPM will be displayed.
  5. Continue tapping until the BPM is fairly stable.
  6. Click the Update files button to save the BPM to the currently playing file.

Algorithms

The BPM analysis algorithm is based loosely on the work presented in the paper Tempo and Beat Estimation of Musical Signals.

Here's a brief overview of how it works:

  1. Grab an n second sample from the song
  2. Transform the sample from the time domain into the frequency domain using windowed, overlapping FFTs, also know as Short Time Fourier Transforms (STFTs).
  3. Onset (or beat) detection is performed on the resulting STFT. The onset detection function takes the spectral flux of the STFT to generate a list of candidate beats.
  4. The candidate beats are run through an auto-correlation function to determine the dominant beat frequency, and hence the BPM.
  5. These steps are repeated at different points throughout the song, resulting in a list of candidate BPMs.
  6. The BPM list is sorted and the average mode value is chosen as the BPM.

The open source FFTW library is used for calculating the FFT.

Limitations

  • The calculated BPMs are not always accurate, especially for songs without obvious beats or large changes in tempo. You can compare the accuracy of the calculated BPM with the included manual BPM tapping function.
  • In a number of cases a song's BPM may be calculated as double or half of its 'true' BPM.
  • Songs shorter than the configured sample length will automatically have their BPM set to 0. This is by design as it isn't possible to accurately determine the BPM of such a short track.
  • There can be large discrepancies between BPMs calculated to the nearest BPM and BPMs calculated to 1 or 2 decimal places.
  • Tapping the spacebar on the manual tapping window when the large Tap Here button loses focus will stop working. The button must be clicked again to regain focus so the spacebar will work.

Future work

  • Improve the current BPM algorithm (wrong BPMs, double/halved BPMs, overall speed)
  • Implement other BPM algorithms
  • Add option to double/halve BPMs to context menu.
  • Specialise the algorithm parameters for different genres, then automatically scan using those parameters based on the GENRE tag.

External links

See also

  • Tempogram (foo_tempogram) (for real-time BPM estimation with graphs showing discrete Fourier transform or autocorrelation of estimated onset being visualized)