To modify the previous algorithm in order to have an isotropic wavelet transform, we compute the difference signal by:
but is computed without reducing the number of samples:
and is obtained by:
The reconstruction method is the same as with the laplacian pyramid, but the reconstruction is not exact. However, the exact reconstruction can be performed by an iterative algorithm. If represents the wavelet coefficients pyramid, we look for an image such that the wavelet transform of this image gives . Van Cittert's iterative algorithm gives:
where
We need no more than 7 or 8 iterations to converge. Another way to have a pyramidal wavelet transform with an isotropic wavelet is to use a scaling function with a cut-off frequency.