Aurobrata
Ghosh1, Evren zarslan2, Rachid Deriche3
1Project Team Odysse, INRIA Sophia Antipolis
- Mditeranne, Sophia Antipolis , Alpes Maritimes, France; 2Section
on Tissue Biophysics and Biomimetics, NICHD, National Institutes of Health,
Bethesda, MD, United States; 3INRIA Sophia Antipolis -
Mditeranne, rachid.deriche@sophia.inria.fr, Sophia Antipolis, Alpes
Maritimes, France
We
validate the GDTI with Gram-Charlier series approximation of the propagator
approach in 1D, by comparing the Gram-Charlier and the Edgeworth series on
closed form diffusion propagators with known cumulants. We also compare
against estimated cumulants. We conclude that the Edgeworth series
outperforms the Gram-Charlier series when the cumulants are known, but
estimating the cumulants from the signal is numerically an important and
sensitive problem.