Perform brightness_timeseries() calculations on all tif images in a folder
and save the resulting number images to disk.
brightness_timeseries_folder(
folder_path = ".",
def,
frames_per_set,
overlap = FALSE,
thresh = NULL,
detrend = FALSE,
quick = FALSE,
filt = NULL,
s = 1,
offset = 0,
readout_noise = 0,
parallel = FALSE
)The path (relative or absolute) to the folder you wish to process.
A character. Which definition of brightness do you want to use,
"B" or "epsilon"?
The number of frames with which to calculate the successive brightnesses.
A boolean. If TRUE, the windows used to calculate number are
overlapped, if FALSE, they are not. For example, for a 20-frame image
series with 5 frames per set, if the windows are not overlapped, then the
frame sets used are 1-5, 6-10, 11-15 and 16-20; whereas if they are
overlapped, the frame sets are 1-5, 2-6, 3-7, 4-8 and so on up to 16-20.
The threshold or thresholding method (see
autothresholdr::mean_stack_thresh()) to use on the image prior to
detrending and brightness calculations.
Detrend your data with detrendr::img_detrend_rh(). This is
the best known detrending method for brightness analysis. For more
fine-grained control over your detrending, use the detrendr package. If
there are many channels, this may be specified as a vector, one element for
each channel.
If FALSE (the default), the swap finding routine is run
several times to get a consensus for the best parameter. If TRUE, the
swap finding routine is run only once.
Do you want to smooth (filt = 'mean') or median (filt = 'median') filter the number image using smooth_filter() or
median_filter() respectively? If selected, these are invoked here with a
filter radius of 1 (with corners included, so each median is the median of
9 elements) and with the option na_count = TRUE. If you want to
smooth/median filter the number image in a different way, first calculate
the numbers without filtering (filt = NULL) using this function and then
perform your desired filtering routine on the result. If there are many
channels, this may be specified as a vector, one element for each channel.
A positive number. The \(S\)-factor of microscope acquisition.
Microscope acquisition parameters. See reference Dalal et al.
Microscope acquisition parameters. See reference Dalal et al.
Would you like to use multiple cores to speed up this
function? If so, set the number of cores here, or to use all available
cores, use parallel = TRUE.
# NOT RUN {
setwd(tempdir())
img <- ijtiff::read_tif(system.file("extdata", "50.tif", package = "nandb"))
ijtiff::write_tif(img, "img1.tif")
ijtiff::write_tif(img, "img2.tif")
brightness_timeseries_folder(def = "e", thresh = "tri", frames_per_set = 20)
# }
Run the code above in your browser using DataLab