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I'm using both OpenCV and FastCV on an android device to perform some image processing operations. After thresholding a frame, I am left with a binary image with moderate amounts of both black and white noise present near the region of interest.

Performing erosion, followed by dilation over the image gives me a virtually noise free image that can be used for further processing, however both of the above libraries have their downfalls.

OpenCV

Mat element = getStructuringElement(MORPH_RECT, Size(2 * erosionSize + 1, 2 * erosionSize + 1), Point(erosionSize, erosionSize));
erode(in, in, element);
element.release();

Forgive my magic numbers, but my simple invocation of OpenCV's erode/dilate looks like the above. I can then modify the erosionSize/dilationSize parameters of this in order to adjust how aggressive the function is at eliminating noise. The problem? Performance is of the utmost priority here and this function runs rather slower than I would like.

FastCV

fcvFilterErode3x3u8_v2 (const uint8_t *__restrict src, unsigned int srcWidth, unsigned int srcHeight, unsigned int srcStride, uint8_t *__restrict dst, unsigned int dstStride)

The above prototpye is for FastCV's erode implementation, where there is no parameter to tune the size of the erosion. Given that FastCV has been optimized for mobile architectures, and that I suspect it actually makes use of the GPU present in the Galaxy Nexus I am using for testing, this function is much faster than the above. However I need to loop and run it over the same frame multiple times to achieve the same level of erosion, sacrificing any performance benefit in the process.

Is anyone aware of either:

  • Any methods that I may have missed in either API which will perform quickly and with a tunable size parameter or
  • Any other libraries that contain a function that adheres to both those requirements and have fairly permissive licenses.
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FastCV does not use GPU on Galaxy Nexus at least by the fact that it is TI chip. –  Andrey Kamaev Aug 15 '12 at 19:55
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1 Answer

up vote 3 down vote accepted

If your intention is to systematically perfom both operations (erosion and dilation) successively, and if you're ok with using the same parameter size for both, then you might want to try applying an opening with opencv's dedicated function:

http://docs.opencv.org/doc/tutorials/imgproc/opening_closing_hats/opening_closing_hats.html

Mathematically this is equivalent to performing and erosion and then a dilation, but there are optimized implementations of the opening that can do it much quicker that by applying both operations successively.

Disclaimer: I haven't checked opencv's implementation for those operation, but you'll want to give a try -- if you haven't done it already of course.

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I have tried this, the problem that I face is that the dilation needs to be larger than the erosion in order to fill in white noise holes in the thresholded region. Thanks for the suggestion! –  jlm47 Aug 17 '12 at 8:07
    
But what about the gain in time ? –  Thibauld Nion Aug 17 '12 at 8:21
    
Actually if the gain in time is big enough you can apply either a closing (this is the typical operation for filling in white holes, but also maybe too much processing wrt your constraints) or a dilation of small size: since the opening is equivalent to –  Thibauld Nion Aug 17 '12 at 8:41
    
I could perform the open, followed by a smaller dilate, which as you stated would be mathematically equivalent to a small erode followed by a large dilate. However, I can't imagine that the open+dilate would perform any faster than the erode+dilate. I'll have a shot at profiling it anyway. I could be surprised. –  jlm47 Aug 17 '12 at 10:15
2  
After eventually profiling this, there appears to be no apparent difference in speed between open+dilate and erode+dilate. –  jlm47 Aug 24 '12 at 2:20
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