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Say I have a rotated squared object with chain code [1, 1, 1, 1, 3, 3, 3, 3, 5, 5, 5, 5, 7, 7, 7] using 8-connectedness. How can I derive its area, as in number of pixels?


I derived the chain code from the boundary pixels. If it is easier to calculate the area by the boundary pixels, how can this be done?

The algorithm should be able to find the number of pixels enclosed by the boundary (including the boundary pixels). The shape of the boundary can be arbitrary, as long as it is closed and does not intersect with itself.

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Do yo mean you want to calculate the area of a cube? –  Michael David Watson May 2 '13 at 15:43
No, objects from a black/white image (x,y). As for this example, the answer should be 41. If it had not been rotated, it would be 5*5 = 25 –  Skogen May 2 '13 at 15:52

3 Answers 3

The area of any polygon can be calculated from its vertices using this formula:

A = 1/2 Sum(i = 1..n, x[i]*y[i+1] - x[i+1]*y[i])

Source: Wolfram MathWorld

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Check your formula for non-rotated square 2x2 ;-) –  Egor Skriptunoff May 2 '13 at 17:37
@EgorSkriptunoff: For a non rotated 2x2 square with the vertices {{0, 0}, {2, 0}, {2, 2}, {0, 2}} I get the area 4. Seems right to me. –  nikie May 2 '13 at 18:22
How you derived such coordinates from chain code [0, 2, 4, 6]? –  Egor Skriptunoff May 2 '13 at 18:39
@nikie: This formula gives a mathematically correct area, but I need the number of pixels... –  Skogen May 2 '13 at 19:59

n - number of border pixels,
(x_k, y_k) - coordinates of k-th border pixel (derived from your chain code by assuming x_1=0, y_1=0),
(n+1)-th pixel is the first pixel.

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Can you add a reference? –  denver May 2 '13 at 17:06
@denver - Reference to what? I've derived this formula by myself. –  Egor Skriptunoff May 2 '13 at 17:12
Where does the n+2 come from? –  nikie May 2 '13 at 17:33
@nikie - It's area of the frame around the polygon formed by centers of border pixels. –  Egor Skriptunoff May 2 '13 at 17:36
@EgorSkriptunoff: This formula does not give a general solution to arbitrary non-intersecting closed contours –  Skogen May 2 '13 at 20:07

See Wikipedia: Pick's Theorem.

This is an extraordinary result, which applies only if the vertices have integral co-ordinates in some representation of the plane. I think this is true in your case. If it is, it provides a very simple way of calculating the area.

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