OpenCV reference manual (2.4.x) states that the constructor that initializes MSER requires the following parameters:

delta, min_area, max_area, max_variation, min_diversity, max_evolution, area_threshold, min_margin, edge_blur_size.

I am dealing with grayscale images. What is the use of the parameters "delta", "max_variation" and "min_diversity"? What property of an MSER do these parameters help control?

I have tried a lot to find the exact answer to this and I could only find a little information on the following pages (none of which was particularly useful in telling me what exactly do these 3 parameters control): 1. OpenCV wiki 2. Wikipedia description of MSER 3. MSER questions on STackOverflow

Please help!

4 Answers 4


I am going to presume that you know the basics of how MSER feature detection works (if not, Wikipedia, and short recap follows).

You have two types of MSER regions, positive and negative.

First type, you get by thresholding with all intensities (for grayscale images, 0 to 255). E.g. for a threshold T = 100, all pixels with intensity < 100 are assigned black, or foreground, and all pixels >= 100 intensity are white or background.

Now, imagine you're observing a specific pixel p. At some threshold, let's call it T1, it will start belonging to the foreground and stay that way until T=255. At T1 a pixel will belong to a component CC_T1(p). 5 gray levels later, it will belong to the component CC_(T1+5)(p).

All of these connected components, obtained for all the thresholds, are potential candidates for MSER. (Other type of components is obtained if you reverse my black/foreground and white/background assignments for thresholding).

Parameters help decide which potential candidates are indeed maximally stable:

  • delta

    For every region, variation is measured:

    V_T = (size(CC_T(p))-size(CC_{T-delta}(p)))/size(CC_{T-delta}(p))

    for every possible threshold Ti. If this variation for a pixels is a local minimum of a variation, that is, V_T < V_{T-1} and V_T < V_{T+1}, the region is maximally stable.

    The parameter delta indicates through how many different gray levels does a region need to be stable to be considered maximally stable. For a larger delta, you will get less regions.

    note: In the original paper introducing MSER regions, the actual formula is:

    V_T = (size(CC_{T+delta}(p))-size(CC_{T-delta}(p)))/size(CC_T(p))

    The OpenCV implementation uses a slightly different formula to speed up the feature extraction.

  • minArea, maxArea

    If a region is maximally stable, it can still be rejected if it has less than minArea pixels or more than maxArea pixels.

  • maxVariation

    Back to the variation from point 1 (the same function as for delta): if a region is maximally stable, it can still be rejected if the the regions variation is bigger than maxVariation.

    That is, even if the region is "relatively" stable (more stable than the neigbouring regions), it may not be "absolutely" stable enough. For smaller maxVariation, you will get less regions

  • minDiversity

    This parameter exists to prune regions that are too similar (e.g. differ for only a few pixels).

    For a region CC_T1(p) that is maximally stable, find a region CC_T2(p) which is the "parent maximally stable region". That means, T2 > T1, CC_T2(p) is a maximally stable region and there is no T2 > Tx > T1 such that CC_Tx(p) is maximally stable. Now, compare how much bigger the parent is:

    diversity = (size(CC_T2(p)) - size(CC_T1(p))) / size(CC_T1(p))

    If this diversity is smaller than maxDiversity, remove the region CC_T1(p). For larger diversity, you will get less regions.

    (For the exact formula for this parameter I had to dig through the program code)

  • Perfect answer ! Thanks a lot.
    – flaviussn
    Aug 14, 2015 at 12:59
  • 1
    @Flayn I know this is a very late response to your comment, but OpenCV in general has some problems with the MSER implementation (or at least had a couple of versions ago, and that steadily through several versions). The regions it returns are not even always maximally stable by definition...
    – penelope
    Dec 15, 2015 at 13:26
  • @penelope: Do you know if OpenCV3.0 fixed the MSER implementation? How about the implementation in VLFEAT? Or do you know another reliable implementation of MSER (C/C++ prefer)? Thanks a lot!
    – Dalpapa
    Feb 1, 2016 at 19:02
  • @THClem Again, quite sure this is too late, but... No idea for OpenCV3.0, I did not check the newer code (the only way to check is to test their outputs...). VLFeat is good. I use my own implementation, so can't suggest anything...
    – penelope
    Jun 13, 2016 at 15:48
  • @penelope Thanks very much for this very thorough explanation. For people who are trying to follow it very closely, I just wanted to point out what I think are a few minor errors: (1) The foreground/background determination is made by < T and >= T respectively (not <= T and > T) (2) The variance calculation takes the absolute value of size(CC_T(p))-size(CC_{T-delta}(p)) (3) The minimum variance requirement is the opposite of what's given, i.e. it should be: V_T < V{T-1} and V_T < V{T+1} (4) In the edge case T = 255, only V_T < V{T-1} is required
    – Danny
    Mar 5, 2017 at 21:36
  • Delta delta, in the code, it compares (size_{i}-size_{i-delta})/size_{i-delta}. default 5.
    • MinArea prune the area which smaller than minArea. default 60.
    • MaxArea prune the area which bigger than maxArea. default 14400.
    • MaxVariation prune the area have simliar size to its children. default 0.25
    • MinDiversity trace back to cut off mser with diversity < min_diversity. default 0.2.
    • MaxEvolution for color image, the evolution steps. default 200.
    • AreaThreshold the area threshold to cause re-initialize. default 1.01.
    • MinMargin ignore too small margin. default 0.003.
    • EdgeBlurSize the aperture size for edge blur. default 5.
    • Mask Optional input mask that marks the regions where we should detect features
  • Thanks! but what does (size_{i}-size_{i-delta})/size_{i-delta} in the definition of delta mean? What does size_{i} stand for? That's the big mystery to me. Please help!
    – Ekta
    Jul 16, 2013 at 3:59
  • 1
    Thanks for writing down the defaults. It is so hard to find it anywhere.
    – Libor
    Jul 29, 2015 at 20:30

I found the answer to my question thanks to this link.

MSERs are obtained by varying the intensity threshold T from 0 to 255. Delta decides the least count of that variation. So, size{i} means the size or area of region with intensity value i in a grayscale image.

Will get back with an explanation of MaxVariation and MinDiversity soon.

  • 5
    the link is now dead
    – Mehdi
    Jun 30, 2016 at 14:35

Matlab has an almost identical function MSER. In Mathworks you can find very well explained what are those parameters for, in my opinion.

I will copy the 2 inputs definitions you ask for (there are no options, in Matlab, for color images):

  • _delta. Step size between intensity threshold levels, specified as the comma-separated pair consisting of 'ThresholdDelta' and a numeric value in the range (0,100]. This value is expressed as a percentage of the input data type range used in selecting extremal regions while testing for their stability. Decrease this value to return more regions. Typical values range from 0.8 to 4.

  • _max_variation. Maximum area variation between extremal regions at varying intensity thresholds, specified as the comma-separated pair consisting of 'MaxAreaVariation' and a positive scalar value. Increasing this value returns a greater number of regions, but they may be less stable. Stable regions are very similar in size over varying intensity thresholds. Typical values range from 0.1 to 1.0.

However, as penelope says, the original paper is very useful for a more deep understanding of the full process. Also, I give this reference of a very interesting comparison between well-known feature detectors.

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