Orthogonality And Zero Dc Tradeoffs In Biorthogonal Graph Filterbanks

Biorthogonal graph wavelet filterbanks, also known as GraphBior, are one of the most popular graph transforms used in image com- pression, but up to now, they could be designed based on two known admissible fundamental matrices: i) the random walk Laplacian, which heavily penalizes low degree pixels, and ii) the normalized Laplacian, which lacks a zero-DC response. By exploiting a new extension of the admissibility condition in GraphBior we propose a new fundamental matrix with the goal of distributing the errors of GraphBior more uniformly across pixels with different node degrees. Furthermore the proposed matrix preserves high energy compaction linked to the zero-DC GraphBior variation.