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240-373 Image Processing1 Morphological and Other Area Operations Introduction –Morphology is the science of form and structure –It is about regions or.

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Presentation on theme: "240-373 Image Processing1 Morphological and Other Area Operations Introduction –Morphology is the science of form and structure –It is about regions or."— Presentation transcript:

1 240-373 Image Processing1 Morphological and Other Area Operations Introduction –Morphology is the science of form and structure –It is about regions or shapes, in computer vision Morphology can be used for the following tasks: –Smoothing the edges of a region –Forcing shapes onto region edges –Counting regions –Estimating sizes of regions Morphological operations are easily seen on binary images but they can be extended to work on gray-level images Basic Morphological Operations Consider the following image 1 * 1 * 1 * 1 * 1 * 1 * 1 * 1 This could be represented as a set of those pixels in 5 x 3 image that have value ‘1’, namely {(0,0), (0,2), (0,4), (1,1), (1,3), (2,0), (2,2), (2,4)}

2 240-373 Image Processing2 And now it is possible to do set operations on images 1 * 1 * 1 * * * 1 1 A = * 1 * 1 * B = * * * 1 1 1 * 1 * 1* * * 1 1 Giving 1 * 1 1 1 A union B = * 1 * 1 1 1 * 1 1 1 * * * * 1 A intersection B = * * * 1 * * * * * 1 The set on unknown pixels (*) can, theoretically, extend infinitely * * * * * * * * * * * * * * * * * * * * 1 * 1 * 1 * * * * * * * * * * * 1 * 1 * * * * * * * * * * * 1 * 1 * 1 * * * * * * * * * * * * * * * * * * * * where the circle around the top left 1 indicates the position of the origin

3 240-373 Image Processing3 Dilation Technique 1: Dilation (Minkowski addition) USE: Region edge valley filling (for binary image) OPERATION: –A template (made from 1’s and *’s) is created with a known origin –The origin of this template is stepped over every element in the whole of the image –The template is ‘unioned’ where the origin of the template corresponds to a 1 in the image –The resulting template-sized matrix is then unioned with all other template-sized results (using their original position)

4 240-373 Image Processing4 Dilation Example Image Template Applying the template to the first line gives Application across the whole image gives new row new column –Continually applying this to the images fills out all the holes and makes the image grow, one row and one column at a time

5 240-373 Image Processing5 Erosion Technique 2: Erosion (Minkowski subtraction) USE: To remove spikes from the edges of regions OPERATION: –A template is created –The template is stepped over the image but it is.not allowed to go outside the image –For every position, if the template is the same as the image window, then the element corresponding to the origin of the template is set to a 1 Image Template Final result is unused row and column

6 240-373 Image Processing6 Gray-level Erosion and Dilation Technique 3: Gray-level erosion and dilation USE: Flattening spikes and filling valleys on region edges in gray-level images OPERATION: –Let I(x,y) be an image of gray levels and R(x,y) be resulting image after I(x,y) has been dilated/eroded with m x n template T(i,j) 0 <= i <= m-1, 0 <= j <= n-1 –Gray level dilation is defined as –and gray level erosion is NOTES: –For both of the above definitions, I(x,y) = 0 for locations outside of an M x N image –Dilation is precisely the dual of the erosion operation. A dilation can be performed by reflecting the template and negating the original image and then negating the result.

7 240-373 Image Processing7 Example Consider the following initial image Dilating by the template gives or subtracting 1 throughout

8 240-373 Image Processing8 Example (cont.’d) Conversely, erode by the same template gives or if 1 is subtracted throughout NOTE: –Dilation gives a larger image, while erosion gives a smaller image –In both cases, the original structure of the image is maintained –If the template is not constant, say the results are as follows: Original Dilate -1 Erode + 1 D(E(D(I))) = D(I) and E(D(E(I))) = E(I)

9 240-373 Image Processing9 Opening and Closing Operations OPENING = dilating after eroding CLOSING = eroding after dilating Technique 4: Opening and closing operations USE: As a step towards the skeleton, counting, and size- estimating operations below OPERATION: –Let OPEN(I,T) be the opening of image I by some template T –Then using previous terminology and the template T throughout OPEN(I,T) = D(E(I)) This gives Original Opened with Opened with Clearly, this restores the image to its original and avoids the scaling of the result. It introduces the shaping of the template into the original.

10 240-373 Image Processing10 More interesting is its operation on clear edges Original Opened with Note how the peak (1 1 2 5 5 4) has been smoothed to the shape of the template but that the trough (1 3) has been left alone.

11 240-373 Image Processing11 Closing is defined as CLOSE(I,T’) = E(D(I)) with E and D using T’ where T’ is the 180 o rotation of T Original Closed with Now the trough has been filled but the peak has been left. Properties of open and close operations –OPEN -> forces the shape of the template on the convex parts of an edge –CLOSE -> forces its shape on the concave parts of an edge –These two operations can be combined to produce a skeleton operation

12 240-373 Image Processing12 Skeleton Operations Technique 5: Skeleton operations USE: To create a skeleton of a region. This will consist of a set of lines corresponding to complete thinning of the region without losing the essential shape. OPERATION: –Let D 1, D 2, …, D n be structuring templates that are square, with sizes 1x1, 2x2, …, n x n, all of them filled with 1’s. –With image I, using template D 1, D 2, …, D n, in turn, evaluate result i = E(I) - OPEN(E(I)) –Then determine Example: Original Final image using only D 1, D 2, D 3, and D 4 This corresponds to a skeleton of the image, retaining length but reduce thickness

13 240-373 Image Processing13 Granule sizing and granule counting Technique 6: Granule sizing and granule counting USE: To estimate the number of bright regions in an image. To estimate the size of the regions in an image. OPERATION: –Using templates such as a set of vertical or horizontal 1’s with increasing length to estimate the size of the area –Using vertical or horizontal templates with binary strings having values 2 n + 1( I.e. 1, 11, 101, 1001, 10001, etc.) to count the numebr of areas –In both cases, the image is eroded by the structuring templates and a measure of how many elements are now non-zero, or a sum of the power in the system is calculated –The number is plotted against the template structure length to give a covariance curve whose peaks indicate the size and number of granules (areas) in the image. Example: The following image was eroded with the templates as shown below. After each erosion the number of pixels > 0 was counted and the power of the resulting image was summed Original image

14 240-373 Image Processing14 Length Type of string 11….1 10…01 powercountpowercount 163206320 231113111 38484 41122 50033 677 777 844 911 1000 Given a slightly altered image which eroded with 10…01 pattern gives length 1 2 3 4 5 6 7 8 9 count30 21 13 9 10 11 9 5 1 power87 52 25 14 15 15 12 6 1

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