X-Git-Url: http://git.euphorik.ch/?p=master-thesis.git;a=blobdiff_plain;f=Parasitemia%2FParasitemia%2FParasitesMarker.fs;h=f1a94e100b28153288ae67eea8387811e46083c2;hp=fde0afe4601110e061f98f8b4f4aa32636a5920a;hb=044b0ae69df3ac565432545b2fa934589016f9bd;hpb=06bd63d8c01100c28873dfafd59b5efccbfb67e4 diff --git a/Parasitemia/Parasitemia/ParasitesMarker.fs b/Parasitemia/Parasitemia/ParasitesMarker.fs index fde0afe..f1a94e1 100644 --- a/Parasitemia/Parasitemia/ParasitesMarker.fs +++ b/Parasitemia/Parasitemia/ParasitesMarker.fs @@ -1,39 +1,89 @@ module ParasitesMarker open System.Drawing +open System.Linq open Emgu.CV open Emgu.CV.Structure +open Utils type Result = { darkStain: Image - stain: Image - infection: Image } + infection: Image + stain: Image } -let find (green: Image) (filteredGreen: Image) (kmediansResult: KMedians.Result) (config: Config.Config) : Result = + +// Create three binary markers : +// * 'Dark stain' corresponds to the colored pixel, it's independent of the size of the areas. +// * 'Stain' corresponds to the stain around the parasites. +// * 'Infection' corresponds to the parasite. It shouldn't contain thrombocytes. +let findMa (green: Image) (filteredGreen: Image) (config: Config.Config) : Result * Image * Image = // We use the filtered image to find the dark stain. - let { KMedians.fg = fg; KMedians.median_bg = median_bg; KMedians.median_fg = median_fg; KMedians.d_fg = d_fg } = kmediansResult - let darkStain = d_fg.Cmp(median_bg * config.darkStainLevel, CvEnum.CmpType.GreaterThan) + let kmediansResults = logTime "Finding fg/bg (k-medians)" (fun () -> KMedians.kmedians filteredGreen) + let { KMedians.fg = fg; KMedians.median_bg = median_bg; KMedians.median_fg = median_fg; KMedians.d_fg = d_fg } = kmediansResults + let darkStain = d_fg.Cmp(median_bg * float config.Parameters.darkStainLevel, CvEnum.CmpType.GreaterThan) darkStain._And(filteredGreen.Cmp(median_fg, CvEnum.CmpType.LessThan)) darkStain._And(fg) - + let fgFloat = (fg / 255.0).Convert() - let greenWithoutBg = green.Copy() + use greenWithoutBg = ImgTools.gaussianFilter green 1.0 greenWithoutBg.SetValue(Gray(0.0), fg.Not()) - let findSmears (sigma: float) (level: float) : Image = - let greenWithoutBgSmoothed = ImgTools.gaussianFilter greenWithoutBg sigma - let fgSmoothed = ImgTools.gaussianFilter fgFloat sigma - + let findSmears (sigma: float) (level: float) : Image = + use greenWithoutBgSmoothed = ImgTools.gaussianFilter greenWithoutBg sigma + use fgSmoothed = ImgTools.gaussianFilter fgFloat sigma let smears = (greenWithoutBg.Mul(fgSmoothed)).Cmp(greenWithoutBgSmoothed.Mul(level), CvEnum.CmpType.LessThan) smears._And(fg) - smears + smears + + let tmp = filteredGreen.Convert() { darkStain = darkStain; - stain = findSmears config.stainSigma config.stainLevel - infection = findSmears config.infectionSigma config.infectionLevel } - + stain = findSmears 10. 0.9 + infection = findSmears 2.2 0.87 }, + tmp, + tmp + + +// Create three binary markers : +// * 'Dark stain' corresponds to the colored pixel, it's independent of the size of the areas. +// * 'Stain' corresponds to the stain around the parasites. +// * 'Infection' corresponds to the parasite. It shouldn't contain thrombocytes. +let find (filteredGreen: Image) (config: Config.Config) : Result * Image = + + use filteredGreenWithoutInfection = filteredGreen.Copy() + ImgTools.areaCloseF filteredGreenWithoutInfection (int config.InfectionArea) + + let filteredGreenWithoutStain = filteredGreenWithoutInfection.Copy() + ImgTools.areaCloseF filteredGreenWithoutStain (int config.StainArea) + + // We use the filtered image to find the dark stain. + + // With K-Means. + let kmeansResults = logTime "Finding fg/bg (k-means)" (fun () -> KMeans.kmeans (filteredGreenWithoutInfection)) + let { KMeans.mean_bg = value_bg; KMeans.mean_fg = value_fg; KMeans.d_fg = d_fg } = kmeansResults + + // With K-Medians. + (* let kmediansResults = logTime "Finding fg/bg (k-medians)" (fun () -> KMedians.kmedians (filteredGreenWithoutInfection)) // FIXME: avoid converting this again in MainAnalysis + let { KMedians.median_bg = value_bg; KMedians.median_fg = value_fg; KMedians.d_fg = d_fg } = kmediansResults *) + + let darkStain = d_fg.Cmp((float value_bg) * config.Parameters.darkStainLevel, CvEnum.CmpType.GreaterThan) + darkStain._And(filteredGreenWithoutInfection.Cmp(float value_fg, CvEnum.CmpType.LessThan)) + + let marker (img: Image) (closed: Image) (level: float) : Image = + let diff = img.Copy() // closed - (img * level) + diff._Mul(level) + CvInvoke.Subtract(closed, diff, diff) + diff._ThresholdBinary(Gray(0.0), Gray(255.)) + diff.Convert() + + let infectionMarker = marker filteredGreen filteredGreenWithoutInfection config.Parameters.infectionLevel + let stainMarker = marker filteredGreenWithoutInfection filteredGreenWithoutStain config.Parameters.stainLevel + { darkStain = darkStain + infection = infectionMarker + stain = stainMarker }, + filteredGreenWithoutStain