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Inspired by this thread How do I find Waldo with Mathematica?

I have never done image processing in R but maybe other people who have want to share...

thanks!

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    The EBImage package has counterparts of at least some of the functions used in the Mathematica answer. bioconductor.org/packages/release/bioc/html/EBImage.html Dec 19, 2011 at 16:35
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    adimpro may also be useful. cran.r-project.org/web/packages/adimpro/index.html Dec 19, 2011 at 16:38
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    Well, there's two things going on here. First, what image processing algorithms do you want to use? Previous commenters have suggested some; I've written Sobel and Hough transforms pretty easily, etc. The other question is what format image are you playing with? FITS and TIFFs have nice "raw" pixel data while other formats may be messier. Also, you might like using imageJ better (freeware from NIH) Dec 19, 2011 at 16:55
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    why R ? Better grab octave for image-processing. More mature image processing libs and mostly matlab compatible. Dec 19, 2011 at 19:53
  • second 0x69 and Carl Witthoft. ImageJ is Java-based, very powerful and very flexible. R is not built for image processing. It might be possible to do it, exactly like it is possible to eat lobster with a hammer.
    – Joris Meys
    Dec 20, 2011 at 9:46

1 Answer 1

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Here is a start, using the raster package. I don't know if I will have the time to work on the cross-correlation method used in the Mathematica version of the question, but a local standard deviation on the red parts of the image seems to spot Waldo in this case...

library(raster)
waldo = stack("/Users/Benjamin/Desktop/DepartmentStore.jpg")

r = waldo[[1]] - waldo[[2]] - waldo[[3]]
r[is.na(r)] = 0
r_mask = Which(r > 0)
r_masked = r * r_mask

focalsd = focal(r_masked, w=3, fun=sd)
plot(focalsd)
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    Please don't hesitate to un-accept this answer if a better one comes up. I was just hoping to start the flow of answers...
    – Benjamin
    Jan 18, 2012 at 16:09

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