Publications

Submitted
Bendjenna PH, Boumaza N, Meraoumia A, Ouannas A, Laimeche L, Abdelmalek S. ICRAMI 2021 CONFERENCE. Submitted.
2021
Boussaid A, Lombarkia F. HERIMITIAN SOLUTIONS TO THE EQUATION AXA+ BY B= C, FOR HILBERT SPACE OPERATORS. 2021.
Amina H, Maissa K. Maximization of the Stability Radius of an Infinite Dimensional System Subjected to Stochastic Unbounded Structured Multi-perturbations With Unbounded Input Operator. 2021 International Conference on Recent Advances in Mathematics and Informatics (ICRAMI). 2021 :1-5.
Mennouni A, Ramdani NE, Zennir K. A new class of fredholm integral equations of the second kind with non symmetric kernel: solving by wavelets method. Boletim da Sociedade Paranaense de Matemática. 2021;39 (6) :67-80.
Lombarkia F, Boussaid A. Operator equations and inner inverses of elementary operators. Linear and Multilinear Algebra. 2021;69 (11) :1989-1996.
Amira K, Maissa K. Robust Stabilization of Infinite Dimensional Systems Subjected to Stochastic and Deterministic Perturbations. 2021 International Conference on Recent Advances in Mathematics and Informatics (ICRAMI). 2021 :1-4.
Kara A, Guedjiba S. Some representations of moore-penrose inverse for the sum of two operators and the extension of the fill-fishkind formula. Numerical Algebra, Control & Optimization. 2021.
Ghecham W, Rebiai S‐E, Sidiali FZ. Stability of the transmission plate equation with a delay term in the moment feedback control. Mathematical Methods in the Applied Sciences. 2021;44 (9) :7676-7692.
Amina H, Maissa K. The stability radius of an infinite dimensional system subjected to stochastic unbounded structured multi-perturbations with application. International Conference on Research in Applied Mathematics and Computer Science. 2021;2021.
Ghecham W, Rebiai S-eddine, Sidiali FZ. Stabilization of coupled wave equations with boundary or internal distributed delay. Applicable Analysis. 2021;100 (14) :3096-3115.
Ghecham W, Rebiai S-eddine, Sidiali FZ. Stabilization of the wave equation with a nonlinear delay term in the boundary conditions. Journal of Applied Analysis. 2021.
2020
Lombarkia F, Megri S. Generalized derivation, SVEP, finite ascent, range closure. Filomat. 2020;34 (10) :3473-3482.
Mennouni A. Improvement by projection for integro‐differential equations. Mathematical Methods in the Applied Sciences. 2020.
2019
SEDDIK AMEUR. Selfadjoint operators, normal operators, and characterizations. Operators and Matrices. 2019;13 :835-842.
Merahi W, Guedjiba S. SOME PROPERTIES OF COMMON HERMITIAN SOLUTIONS OF MATRIX EQUATIONS A1XA. 2019.
Merahi W, Guedjiba S. SOME PROPERTIES OF COMMON HERMITIAN SOLUTIONS OF MATRIX EQUATIONS A1XA*1= B1 AND A2XA2 = B2. MATEMATICKI VESNIK ˇ MATEMATIQKI VESNIK. 2019;71 (3) :214–229.
Guelfen H, Kittaneh F. On Numerical Radius Inequalities for Operator Matrices. Numerical Functional Analysis and Optimization. 2019;40 (11) :1231-1241.
Ameur S. SELFADJOINT OPERATORS, NORMAL OPERATORS, AND CHARACTERIZATIONS. Operators and Matrices. 2019;13 (3) :835–842.Abstract

Let B(H) be the C -algebra of all bounded linear operators acting on a complex separable Hilbert space H . We shall show that:

1. The class of all selfadjoint operators in B(H) multiplied by scalars is characterized by ∀X ∈ B(H), S2X +XS2 =>2||SXS||, (S ∈ B(H)).

2. The class of all normal operators in B(H) is characterized by each of the three following properties (where DS = SS−SS , for S ∈ B(H)),

(i) ∀X ∈ B(H), S2X + XS2 =>2||SXS||,(S ∈ B(H)),

(ii) S∗DSS = 0 = SDSS∗,(S ∈ B(H)),

(iii) SDSS=> 0 =>SDSS,(S ∈ B(H)).

 

Lombarkia F, Boussaid A. Operator equations and inner inverses of elementary operators. Linear and Multilinear Algebra . 2019.Abstract

Let E,F,G,D be infinite complex Banach spaces and B(F,E) the Banach space of all bounded linear operators from F into E. Consider A1,A2∈B(F,E), B1,B2∈B(D,G)B1,B2∈B(D,G). Let MA1,B1:X→A1XB1 be the multiplication operator on B(G,F) induced by A1,B1. In particular, LA1=MA1,I and RB1=MI,B1, where I is the identity operator are the left and the right multiplication operators, respectively. The elementary operator Ψ defined on B(G,F)B(G,F) is the sum of two multiplication operators Ψ=MA1,B1+MA2,B2. This paper gives necessary and sufficient conditions for the existence of a common solution of the operator equations MA1,B1(X)=C1 and MA2,B2(X)=C2 and derive a new representation of the general common solution via the inner inverse of the elementary operator Ψ; we apply this result to determine new necessary and sufficient conditions for the existence of a Hermitian solution and a representation of the general Hermitian solution to the operator equation MA,B(X)=C. As a consequence, we obtain well-known results of Daji and Koliha.

2018
Bouraya C, Seddik A. On the characterizations of some distinguished subclasses of Hilbert space operators. Acta Scientiarum Mathematicarum. 2018;84 (3) :611-627.

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