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I am trying to interpret the following description of convolution with a Gaussian filter:

Given a 2D binary image with 1s at selected locations, we obtain a continuous map by convolving a Gaussian filter across all locations. We choose the size of the Gaussian to have a cutoff frequency of K cycles per image.

To start with, I am not sure from this description whether the filtering is processed in the frequency domain or in the spatial domain. On one hand, "convolving a filter across all locations" implies the former; on the other hand, "frequency" and "cycles" imply the latter.

I assume that the filtering is processed in the spatial domain. But still, I am puzzled by the way the size of that Gaussian is chosen. I am aware that there is a relation between the size of a Gaussian (determined by sigma) and cut-off frequency:

Fc = 1/(2*pi*sigma)

where Fc is the cutoff frequency. However, I am not sure how to interpret "cutoff frequency of 8 cycles per image". Does this mean I could simply replace Fc for the value 8 to infer sigma and determine the size of the Gaussian? Or, perhaps I should first convert cycles per image into cycles perpixel?

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  • Like you said, it is confusing. Could you give the source of the text you quoted so it is possible to look further into your question?
    – Paradox
    Jul 18, 2017 at 13:08
  • Thanks you for reading my question! By now, I managed to have the text clarified (and earned the "tumbleweed" badge :). I will soon edit the answer with an update.
    – edelburg
    Jul 24, 2017 at 10:19

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