Two-Dimensional Partially Differential Cepstrum and Its Applications on Filter Stabilization and Phase Unwrapping
Journal
IEEE Transactions on Circuits and Systems Part I: Regular Papers
Journal Volume
58
Journal Issue
4
Pages
737-745
Date Issued
2011-04
Author(s)
Huei-Shan Lin
Abstract
A new type of differential cepstrum (DC) named as partially DC (PDC) is introduced. While compared with the previously defined DC, the PDC saves half the computational complexity since only one dimension of the partial derivative is considered. Nevertheless, for the calculation of the complex cepstrum (CC), using the PDC avoids the phase-unwrapping routine as well. One application is to construct the minimum-phase sequence from a mixed-phase one through a windowing technique, which can be further applied to filter stabilization. Another application is performing phase unwrapping on 2-D phase data to which we propose a much simpler technique using the PDC. These applications can be implemented in a more efficient and convenient way with the PDC than with the traditional DC.
Subjects
Complex cepstrum (CC); differential cepstrum (DC); filter stabilization; minimum phase (MP); partially differential cepstrum (PDC); phase unwrapping
Other Subjects
Electrical engineering; Electronics engineering; Cepstrum; Complex cepstrum; ITS applications; Minimum phase; One dimension; Partial derivatives; Phase unwrapping; Windowing techniques; Stabilization
Type
journal article