# a few questions on difference of gaussian

I use this formula for DoG (link):

$\frac{1}{\sigma} (\frac{x^2}{2\sigma^2}-1.0) e^{\frac{-x^2}{2\sigma^2}}$

What is the relationship between this formula and the difference two Gaussian functions?

Can someone show me how to apply DoG on a 1D signal in Matlab? My input can be considered as a 1D real-valued function, and I applied the above formula to detect blobs. The results make sense except that I don't know why I get many local minimum in relatively flat region (i.e., function values at points in the region almost stay constant). Since I don't have enough signal processing/image processing background, I want to see what a constant signal look like after being convolved with a DoG filter.

Thanks

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Hi, you have a better chance here: cs.stackexchange.com to get an answer to your question. –  moller1111 Nov 24 '12 at 4:01
@HasanTahsin, thank you for the info –  user11869 Nov 24 '12 at 4:28
No - this is not a CS question - it's more of a DSP/maths question. It could stay here as it's about a MATLAB implementation, or it could go to dsp.stackexchange.com. –  Paul R Nov 24 '12 at 8:25
that formula is not DoG. DoG is difference of two Gaussians of different sigma parameters. To apply DoG filter in Matlab, first generate it into a vector (call it f, and your signal is s), then you can do conv(f,s) (or alternatively, use filter). –  thang Feb 10 '13 at 8:45