Determination of horizontal velocity fields on the solar surface is crucial
for understanding the dynamics of structures like mesogranulation or
supergranulation or simply the distribution of magnetic fields.
We pursue here the development of a method called CST for coherent structure
tracking, which determines the horizontal motion of granules in the field of
view.
We first devise a generalization of Strous method for the segmentation of
images and show that when segmentation follows the shape of granules more
closely, granule tracking is less effective for large granules because of
increased sensitivity to granule fragmentation. We then introduce the
multi-resolution analysis on the velocity field, based on Daubechies wavelets,
which provides a view of this field on different scales. An algorithm for
computing the field derivatives, like the horizontal divergence and the
vertical vorticity, is also devised. The effects from the lack of data or from
terrestrial atmospheric distortion of the images are also briefly discussed.Comment: in press in Astronomy and Astrophysics, 9 page