Composition method for constructing convolutions for integral transforms

Mathematische Nachrichten

2010

This paper gives a general formulation of convolutions for arbitrary linear operators from a linear space to a commutative algebra, constructs three convolutions for the Fourier transforms with geometric variables and four generalized convolutions for the Fourier-cosine, Fourier-sine transforms. With respect to applications, by using the constructed convolutions normed rings on L1(R n ) are constructed, and explicit solutions of integral equations of convolution type are obtained.

Section: Introduction and Summary Of Resultsmentioning

confidence: 99%

“…Generally speaking, each of the convolutions is a new transform which has become an object of study (see [1,19]). In our view, the integral transforms of Fourier type deserve special interest.…”

Section: Introduction and Summary Of Resultsmentioning

confidence: 99%

Convolutions for the Fourier transforms with geometric variables and applications

Giang

Mau

Mathematische Nachrichten

2010

“…Generalized convolution with weight-function is a nice idea based on the so-called factorization identity (see [11,13,16]). The following theorem presents the generalized convolutions with Hermitian weight-function.…”

Section: Lemma 21 the Following Identities Yieldmentioning

confidence: 99%

The Hermite Functions Related to Infinite Series of Generalized Convolutions and Applications

Complex Anal. Oper. Theory

Huyền²

2010

In this paper, we show that arbitrary Hermite function or appropriate linear combination of those functions is a weight-function of four explicit generalized convolutions for the Fourier cosine and sine transforms. With respect to applications, normed rings on L 1 (R d ) are constructed, and sufficient and necessary conditions for the solvability and explicit solutions in L 1 (R d ) of the integral equations of convolution type are provided by using the constructed convolutions.

“…One reason for this is that they have many applications in pure and applied mathematics (see ), Vladimirov [23] and references therein). Each convolution is a new transform which can be an object of study (see [4,5,6,10,20,21,22]). Moreover, convolution is a mathematical way of combining two signals to form a third signal, which is a very important technique in digital signal processing (see Smith [14]).…”

Section: Convolutionsmentioning

confidence: 99%

Operational Properties of Two Integral Transforms of Fourier Type and their Convolutions

Giang

Mau

Integr. equ. oper. theory

2009

In this paper we present the operational properties of two integral transforms of Fourier type, provide the formulation of convolutions, and obtain eight new convolutions for those transforms. Moreover, we consider applications such as the construction of normed ring structures on L1(R), further applications to linear partial differential equations and an integral equation with a mixed Toeplitz-Hankel kernel. Mathematics Subject Classification (2000). Primary 42B10; Secondary 44A20, 44A35, 47G10.