Abstract
A multiresolution analysis associated with linear canonical transform was defined by Shah and Waseem for which the translation set is a discrete set which is not a group. In this paper, we continue the study based on this nonstandard setting and introduce vector-valued nonuniform multiresolution analysis associated with linear canonical transform (LCT-VNUMRA) where the associated subspace vμ0 of L2ℝℂM) has an orthonormal basis of the form ${\left\{ {\Phi (x - \lambda ){e^ - }\frac{{ - \iota \pi A}}{B}({t^2} - {\lambda ^2})} \right\}_{\lambda \in \Lambda }}$ where Λ = {0, r/N} +2ℤ, N ≥ 1 is an integer and r is an odd integer such that r and N are relatively prime. We establish a necessary and sufficient condition for the existence of associated wavelets and derive an algorithm for the construction of vector-valued nonuniform multiresolution analysis on local fields starting from a vector refinement mask with appropriate conditions.
Highlights
Where Λ = {0, r/N } + 2Z, N ≥ 1 is an λ∈Λ integer and r is an odd integer such that r and N are relatively prime
We establish a necessary and sufficient condition for the existence of associated wavelets and derive an algorithm for the construction of vector-valued nonuniform multiresolution analysis on local fields starting from a vector refinement mask with appropriate conditions
AMS Subject Classification: 42C40, 42C15, 43A70, 11S85
Summary
Where Λ = {0, r/N } + 2Z, N ≥ 1 is an λ∈Λ
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