It would appear to me that this link should have what you need.
However, looks like you'll have to make a minor modification if you want to specify the `n`

by `m`

window.

```
// Pick up window elements
int k = 0;
// Original: element window[9];
element window[n_win*m_win];
for (int j = m_win - 1; j < m_win; ++j)
for (int i = n_win - 1; i < n_win; ++i)
window[k++] = image[j * N + i];
// Order elements (only half of them)
// make sure (n_win*m_win)/2 is odd :-)
for (int j = 0; j < (n_win*m_win)/2; ++j)
{
// Find position of minimum element
int min = j;
for (int l = j + 1; l < n_win*m_win; ++l)
if (window[l] < window[min])
min = l;
// Put found minimum element in its place
const element temp = window[j];
window[j] = window[min];
window[min] = temp;
}
// Get result - the middle element
result[(m - 1) * (N - 2) + n - 1] = window[4];
```

`medfilt2`

differ from`cv::medianBlur`

? – Georg Sep 21 '12 at 17:59`cv::medianBlur`

uses a`ksize*ksize`

aperature. Not sure the generic`m*n`

aperature is needed by`medfilt2`

provides that option. – macduff Sep 21 '12 at 18:04