I'm suppressing the low DC frequencies of several (unequal) blocks in an image in the Dicrete Cosine Transform (DCT) domain. After that doing an inverse DCT to get back the image with only the high frequency portions remaining.
cvConvertScale( img , img_32 ); //8bit to 32bit conversion cvMinMaxLoc( img_32, &Min, &Max ); cvScale( img_32 , img_32 , 1.0/Max ); //quantization for 32bit cvDCT( img_32 , img_dct , CV_DXT_FORWARD ); //DCT //display( img_dct, "DCT"); cvSet2D(img_dct, 0, 0, cvScalar(0)); //suppress constant background //cvConvertScale( img_dct, img_dct, -1, 255 ); //invert colors cvDCT( img_dct , img_out , CV_DXT_INVERSE ); //IDCT //display(img_out, "IDCT");
The objective is to identify and isolate elements which is present in high frequencies from previously detected regions in the image. However in several cases the text is very thin and faint (low contrast). In these cases the IDCT yeilds images which are so dark that even the high frequency portions become too faint for further analysis to work.
What manipulations are there so that we can obtain a clearer picture from the IDCT after background suppression?
CvEqualizeHist() gives too much noise.
Whole picture uploaded here as belisarius asked. The low frequency suppression is not being done on the entire image, but on small ROI set to the smallest bounding rectangle around text/low frequency portions.