manual_realign: Plot spectrograms to check test sound files alignment
In maRce10/baRulho: Quantifying (Animal) Sound Degradation

manual_realign

R Documentation

Plot spectrograms to check test sound files alignment

Description

manual_realign plots spectrograms to visually inspect alignment precision on test sound files.

Usage

manual_realign(
  X,
  Y,
  hop.size = getOption("hop.size", 11.6),
  wl = getOption("wl", NULL),
  ovlp = getOption("ovlp", 0),
  path = getOption("sound.files.path", "."),
  collevels = seq(-120, 0, 5),
  palette = viridis::viridis,
  duration = 2,
  mar = 0.2,
  step.lengths = c(5, 30),
  flim = NULL,
  label.col = "white",
  ext.window = TRUE,
  width = 10,
  height = 5,
  srt = 0,
  cex = 1,
  fast.spec = TRUE,
  marker = "start_marker",
  grid = 0.2,
  ...
)

Arguments

`X`	Object of class 'data.frame', 'selection_table' or 'extended_selection_table' (the last 2 classes are created by the function `selection_table` from the warbleR package) with the reference to the test sounds (typically the output of `align_test_files`). Must contain the following columns: 1) "sound.files": name of the .wav files, 2) "selec": unique selection identifier (within a sound file), 3) "start": start time and 4) "end": end time of selections, 5) "bottom.freq": low frequency for bandpass, 6) "top.freq": high frequency for bandpass and 7) "sound.id": ID of sounds used to identify counterparts across distances. Each sound must have a unique ID within a distance.
`Y`	object of class 'data.frame', 'selection_table' or 'extended_selection_table' (the last 2 classes are created by the function `selection_table` from the warbleR package) with the master sound file annotations. This should be the same data than that was used for finding the position of markers in `find_markers`. It should also contain a 'sound.id' column.
`hop.size`	A numeric vector of length 1 specifying the time window duration (in ms). Default is 11.6 ms, which is equivalent to 512 wl for a 44.1 kHz sampling rate. Ignored if 'wl' is supplied.
`wl`	a vector with a single even integer number specifying the window length of the spectrogram, default is `NULL`. If supplied, 'hop.size' is ignored. Odd integers will be rounded up to the nearest even number.
`ovlp`	Numeric vector of length 1 specifying the percentage of overlap between two consecutive windows, as in `spectro`. Default is 0.
`path`	Character string containing the directory path where the sound files are found. Only needed when 'X' is not an extended selection table. If not supplied the current working directory is used.
`collevels`	A numeric vector of length 3. Specifies levels to partition the amplitude range of the spectrogram (in dB). The more levels the higher the resolution of the spectrogram. Default is seq(-120, 0, 1).
`palette`	Color palette function for spectrogram. Default is `viridis`. See `spectro` for more palettes. Palettes as `gray.2` may work better when `fast.spec = TRUE` (an argument that can be passed to the internal spectrogram function using "...").
`duration`	A numeric vector of length 1. Specifies the overall duration of the clip that will be plotted. Notice that only the initial part of the test files are plotted as this is enough to tell the precision of the alignment.
`mar`	numeric vector of length 1. Specifies the minimum margins adjacent (before and after) to the start of the marker used for checking alignments (see 'marker' argument). Default is 0.2.
`step.lengths`	Numeric vector of length 2 indicating the time length (in ms) of short (min(step.lengths)) and long steps (max(step.lengths)) for manually aligning spectrograms. Default is `c(5, 30)`.
`flim`	A numeric vector of length 2 indicating the highest and lowest frequency limits (kHz) of the spectrogram, as in `spectro`. Default is `NULL` which will plot spectrograms in the full frequency range (0 - nyquist frequency).
`label.col`	Character string controlling the color of lines and sound ID labels.
`ext.window`	Logical. If `TRUE` then and external graphic window is used.Dimensions can be set using the 'width' and 'height' arguments. Default is `TRUE`.
`width`	Numeric vector of length 1. Single value (in inches) indicating the width of the output image files. Default is 10.
`height`	Numeric vector of length 1. Single value (in inches) indicating the height of the output image files. Default is 5.
`srt`	Numeric argument of length 1. The rotation (in degrees) of the sound id labels. Default is 0.
`cex`	Numeric argument of length 1controlling the size of sound id text labels. Default is 1.
`fast.spec`	Logical. If `TRUE` then image function is used internally to create spectrograms, which substantially increases performance (much faster), although some options become unavailable, as collevels (amplitude scale). Default is `FALSE`.
`marker`	Character string with the name of the marker to be used as the main reference for checking/adjusting time alignments. Default is 'start_marker'. Note that this can take any of the sound IDs in 'Y$sound.id'.
`grid`	Numeric vector of length 1 controlling the spacing between vertical lines on the spectrogram. Default is 0.2 s. Use 0 to remove grid.
`...`	Additional arguments to be passed to the internal spectrogram creating function for customizing graphical output. The function is a modified version of `spectro`, so it takes the same arguments.

Details

This function allows the interactive adjustment of the alignment of test sound files produced by align_test_files. The function generates a multipanel graph with the spectrogram of the master sound file in top of that from test sound files, highlighting the position of correspondent test sounds on both in order to simplify assessing and adjusting their alignment. Spectrograms include the first few seconds of the sound files (controlled by 'duration') which is usually enough to tell the precision of the alignment. The lower spectrogram shows a series of 'buttons' that users can click on to control if the test sound file spectrogram (low panel) needs to be moved to the left ("<") or right (">"). Users can also reset the spectrogram to its original position ('reset'), move on to the next sound file in 'X' (test sound file annotations) or stop the process (stop button). The function returns an object similar to the input object 'X' in which the start and end of the sounds have been adjusted.

Value

Creates a multipanel graph with spectrograms of master and test sound files in which users can interactively adjust their alignment in time. Return an object similar to the input object 'X' in which the start and end of the sounds have been adjusted.

Author(s)

Marcelo Araya-Salas (marcelo.araya@ucr.ac.cr)

References

Araya-Salas, M. (2020). baRulho: baRulho: quantifying degradation of (animal) acoustic signals in R. R package version 1.0.2

Examples

{
  # load example data
  data("master_est")

  # save example files in working director to recreate a case in which working
  # with sound files instead of extended selection tables.
  # This doesn't have to be done with your own data as you will
  # have them as sound files already.
  for (i in unique(test_sounds_est$sound.files)[1:2]) {
  writeWave(object = attr(test_sounds_est, "wave.objects")[[i]], file.path(tempdir(), i))
  }

  # save master file
  writeWave(object = attr(master_est, "wave.objects")[[1]], file.path(tempdir(), "master.wav"))

  # get marker position
  markers <- find_markers(X = master_est, test.files = unique(test_sounds_est$sound.files)[2], 
  path = tempdir())

  # align all test sounds
  alg.tests <- align_test_files(X = master_est, Y = markers)

  # add error to alignment
  lag <- (as.numeric(as.factor(alg.tests$sound.files)) - 2) / 30
  alg.tests$start <- alg.tests$start + lag
  alg.tests$end <- alg.tests$end + lag

  if(interactive()){
  realigned_est <- manual_realign(X = alg.tests, Y = master_est, duration = 2,
  ovlp = 50, hop.size = 14, collevels = seq(-140, 0, 5), palette = viridis::mako,
  ext.window = FALSE)
 }
}

maRce10/baRulho documentation built on March 30, 2024, 7:50 a.m.