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I've implemented a Sobel Edge Detector and had some questions about computing edge orientations.

I'm using this function to compute edge intensities after having done the sobel kernel convolution.

Gxy = sqrt( pow(Gx, 2) + pow(Gy,2) )

Where Gx is sum of the convolution for the sobel kernel in the X direction and Gy is sum of the convolution for the sobel kernel in the Y direction. (note the sobel kernel in the X and Y direction are different kernels)

Y kernel:

  • 1 2 1
  • 0 0 0
  • -1 -2 -1

X kernel:

  • -1 0 1
  • -2 0 2
  • -1 0 1

when I try to compute the edge orientation (theta is in degrees), I'm using the following rules:

  • if Gy == 0 and Gx == 0, then theta = 0
  • if Gy != 0 and Gx == 0, then theta = 90
  • otherwise, theta = (arctan( Gy / Gx ) * 180) / PI

all my documentation is telling me the angles should be > 0 and < 360 and I continue to get edges with negative value orientations. Is there something I'm doing incorrectly when computing theta or my convolution? Or should i just add 360 or 180 to negative theta values?

thanks in advance,

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1 Answer 1

up vote 1 down vote accepted

It's hard to answer your question precisely because you haven't mentioned exactly how you calculate the arctan function.

For example, if you're using the standard library's atan function, then negative angles are to be expected.

Furthermore, you'll notice that atan with a single argument can only ever return values in the first and fourth quadrants (because, for example, tan 45 == tan 225 when using degrees).

If you really want an angle in one of the four quadrants (you should really ask yourself if this matters for your application), then have a look at atan2.

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from the documentation i've been reviewing, (uweb.ucsb.edu/~shahnam/AfED.doc), i'm using the summed value of the sobel kernel for the Y direction (the Gy in my sample) and the summed value of the sobel kernel for the X direction (the Gx in my sample). I've seen some other places that recommend arctan2(Gy, Gx) to compute these values and I'm also getting negative angles. @misha, thanks for the assistance on the quadrant results, totally on point! for my application, quadrangle detection, 4 quadrants would probably work best. –  ct_ Sep 13 '11 at 16:47

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