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detrendr expects the time dimension to be the fourth
dimension of the image (y, x,
channel, time). Some people’s data is
linescan, meaning there is only one spatial dimension (x)
and time is placed along the y axis of the image. We have
an example in this package. It’s 1,000 time points of a line of 64
pixels; it has 2 channels.
linescan_img <- ijtiff::read_tif(system.file("extdata", "linescan.tif",
package = "detrendr"))
#> Reading linescan.tif: an 8-bit, 1000x64 pixel image of
#> unsigned integer type. Reading 2 channels and 1 frame . . .
#> Done.
dim(linescan_img)
#> [1] 1000 64 2 1As you can see, the image has 1,000 rows and 64 columns in its two
channels, so time is indeed along the y axis. This won’t
work with detrendr, so before detrending it, we need to put time on the
fourth dimension. Fortunately, ijtiff provides a function
for this.
converted_img <- ijtiff::linescan_to_stack(linescan_img)
dim(converted_img)
#> [1] 1 64 2 1000Now as you can see, time is on the fourth dimension, so we can proceed as normal.
library(detrendr)
detrended_converted_img <- img_detrend_rh(converted_img)
dim(detrended_converted_img)
#> [1] 1 64 2 1000This image is still in stack format. You could now convert it back to linescan format if you like.
linescan_detrended_img <- ijtiff::stack_to_linescan(detrended_converted_img)
dim(linescan_detrended_img)
#> [1] 1000 64 2 1You can then do as you please with these results, such as save them
with ijtiff::write_tif().
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