Litcius/Paper detail

Discrete Quadratic-Phase Fourier Transform: Theory and Convolution Structures

H. M. Srivastava, Waseem Z. Lone, Firdous A. Shah, Ahmed I. Zayed

2022Entropy15 citationsDOIOpen Access PDF

Abstract

The discrete Fourier transform is considered as one of the most powerful tools in digital signal processing, which enable us to find the spectrum of finite-duration signals. In this article, we introduce the notion of discrete quadratic-phase Fourier transform, which encompasses a wider class of discrete Fourier transforms, including classical discrete Fourier transform, discrete fractional Fourier transform, discrete linear canonical transform, discrete Fresnal transform, and so on. To begin with, we examine the fundamental aspects of the discrete quadratic-phase Fourier transform, including the formulation of Parseval's and reconstruction formulae. To extend the scope of the present study, we establish weighted and non-weighted convolution and correlation structures associated with the discrete quadratic-phase Fourier transform.

Topics & Concepts

Discrete Fourier transform (general)Discrete-time Fourier transformFractional Fourier transformParseval's theoremNon-uniform discrete Fourier transformDiscrete sine transformMathematicsFourier transformDiscrete Hartley transformDiscrete Fourier seriesConvolution (computer science)Fourier transform on finite groupsFourier inversion theoremPhase correlationCircular convolutionHartley transformMathematical analysisFourier analysisComputer scienceArtificial intelligenceArtificial neural networkMathematical Analysis and Transform MethodsImage and Signal Denoising MethodsDigital Filter Design and Implementation