Learn R Programming

warbleR (version 1.1.12)

sp.en.ts: Extract the spectral entropy across signals as a time series

Description

sp.en.ts spectral entropy across signals as a time series. of signals selected by manualoc or autodetec.

Usage

sp.en.ts(X, wl = 512, length.out = 20, wn = "hanning", ovlp = 70, bp = NULL,
  threshold = 15, img = TRUE, parallel = 1, path = NULL, img.suffix = "sp.en.ts",
   pb = TRUE, clip.edges = FALSE, leglab = "sp.en.ts", sp.en.range = c(2, 10), ...)

Arguments

X

'selection.table' object or data frame with results containing columns for sound file name (sound.files), selection number (selec), and start and end time of signal (start and end). The ouptut of manualoc or autodetec can be used as the input data frame.

wl

A numeric vector of length 1 specifying the window length of the spectrogram, default is 512. Note that this is particularly important for measuring spectral entropy. Low values (~100) generate a very detail contour of the variation in spectral entropy that is probably not useful for assesing signal similarity.

length.out

A character vector of length 1 giving the number of measurements of spectral entropy desired (the length of the time series).

wn

Character vector of length 1 specifying window name. Default is "hanning". See function ftwindow for more options.

ovlp

Numeric vector of length 1 specifying % of overlap between two consecutive windows, as in spectro. Default is 70.

bp

A numeric vector of length 2 for the lower and upper limits of a frequency bandpass filter (in kHz). Default is NULL.

threshold

amplitude threshold (%) for dominant frequency detection. Default is 15.

img

Logical argument. If FALSE, image files are not produced. Default is TRUE.

parallel

Numeric. Controls whether parallel computing is applied. It specifies the number of cores to be used. Default is 1 (i.e. no parallel computing).

path

Character string containing the directory path where the sound files are located.

img.suffix

A character vector of length 1 with a sufix (label) to add at the end of the names of image files.

pb

Logical argument to control progress bar. Default is TRUE.

clip.edges

Logical argument to control whether edges (start or end of signal) in which amplitude values above the threshold were not detected will be removed. If TRUE this edges will be excluded and signal contour will be calculated on the remainging values. Default is FALSE.

leglab

A character vector of length 1 or 2 containing the label(s) of the frequency contour legend in the output image.

sp.en.range

Numeric vector of length 2. Range of frequency in which to display the entropy values on the spectrogram (when img = TRUE). Default is c(2, 10). Negative values can be used in order to stretch more the range.

...

Additional arguments to be passed to trackfreqs for customizing graphical output.

Value

A data frame with the dominant frequency values measured across the signals. If img is TRUE it also produces image files with the spectrograms of the signals listed in the input data frame showing the location of the dominant frequencies (see trackfreqs description for more details).

Details

This function spectral entropy across signals as a time series. The function uses the approx function to interpolate values between spectral entropy measures (calculated with csh). If there are no frequencies above the amplitude theshold at the begining or end of the signals then NAs will be generated. On the other hand, if there are no frequenciesabove the amplitude theshold in between signal segments in which amplitude was detected then the values of this adjacent segments will be interpolated to fill out the missing values (e.g. no NAs in between detected amplitude segments). Missing values at the start of end can be removed with "clip.edges".

See Also

specreator for creating spectrograms from selections, snrspecs for creating spectrograms to optimize noise margins used in sig2noise

Other spectrogram creators: color.spectro, dfDTW, dfts, ffDTW, ffts, snrspecs, specreator, trackfreqs

Examples

Run this code
# NOT RUN {
{
# set the temp directory
# setwd(tempdir())

#load data
data(list = c("Phae.long1", "Phae.long2",  "Phae.long3",  "Phae.long4","selec.table"))
writeWave(Phae.long2, "Phae.long2.wav") #save sound files 
writeWave(Phae.long1, "Phae.long1.wav")
writeWave(Phae.long3, "Phae.long3.wav") #save sound files 
writeWave(Phae.long4, "Phae.long4.wav")

# without clip edges
sp.en.ts(X = selec.table, threshold = 10, bp = NULL, clip.edges = FALSE, length.out = 10,
 type = "b", sp.en.range = c(-25, 10))

# with clip edges and length.out 10
sp.en.ts(X = selec.table, threshold = 10, bp = c(2, 12), clip.edges = TRUE, length.out = 10)

}
# }

Run the code above in your browser using DataLab