The Riesz Core of a Sequence

Celal Çakan; Abdullah Alotaıbı

Research Article

Year 2011, Volume: 24 Issue: 1, 35 - 39, 14.01.2011

Celal Çakan , Abdullah Alotaıbı

Abstract

References

Abdullah M. Alotaibi, “Cesáro statistical core of complex number sequences”, Inter. J. Math. Math. Sci., Article ID 29869 (2007).
B. Altay, F. Başar, “Some paranormed Riesz sequence spaces of non-absolute type”, Southeast Asian Bull. Math. 30(5): 591-608 (2006).
F. Başar, “A note on the triangle limitation methods”, Fırat Univ. Fen & Müh. Bil. Dergisi, 5(1): 113-117 (1993).
R. G. Cooke, “Infinite matrices and sequence spaces”, Macmillan, New York (1950).
J. Connor, “On strong matrix summability with respect to a modulus and statistical convergence”, Canad. Math. Bull. 32: 194-198 (1989).
C. Çakan, H. Çoşkun, “Some new inequalities related to the invariant means and uniformly bounded function sequences”, Applied Math. Lett. 20(6): 605-609 (2007).
H. Çoşkun, C. Çakan, “A class of statistical and σ- conservative matrices”, Czechoslovak Math. J. 55(3): 791-801 (2005).
H. Çoşkun, C. Çakan, Mursaleen, “On the statistical and σ –cores”, Studia Math. 154(1):(2003).
K. Demirci, “A-statistical core of a sequence”, Demonstratio Math., 33: 43-51 (2000).
H. Fast, “Sur la convergence statisque”, Colloq. Math., 2: 241-244 (1951).
A. R. Freedman, J. J. Sember, “Densities and summability”, Pasific J. Math., 95:293-305 (1981).
J. A. Fridy, C. Orhan, “Statistical core theorems”, J. Math. Anal. Appl., 208: 520-527 (1997).
I. J. Maddox, “Elements of Functional Analysis”, Cambridge University Press, Cambridge (1970).
E. Malkowsky, V. Rakoćević, “Measure of noncompactness of linear operators between spaces of sequences that are (N, q) summable or bounded”, Czechoslovac Math. J., 51(126): 505- 522 (2001).
G. M. Petersen, “Regular matrix transformations”, McGraw-Hill, (1966).
A. A. Shcherbakov, “Kernels of sequences of complex numbers and their regular transformations”, Math. Notes, 22: 948-953 (1977).

The Riesz Core of a Sequence

Year 2011, Volume: 24 Issue: 1, 35 - 39, 14.01.2011

Celal Çakan , Abdullah Alotaıbı

Abstract

The Riesz sequence space q

cr including the space c has recently been defined in [14] and its some properties
have been investigated. In the present paper, we introduce a new type core, Kq-core, of a complex valued
sequence and also determine the required conditions for a matrix B for which Kq-core (Bx) ⊆ K-core (x), Kqcore (Bx) ⊆ stA-core (x) and Kq-core (Bx) ⊆ Kq-core (x) hold for all x ∈ ∞ A .

Keywords

Matrix transformations, core of a sequence, statistical convergence

References

Abdullah M. Alotaibi, “Cesáro statistical core of complex number sequences”, Inter. J. Math. Math. Sci., Article ID 29869 (2007).
B. Altay, F. Başar, “Some paranormed Riesz sequence spaces of non-absolute type”, Southeast Asian Bull. Math. 30(5): 591-608 (2006).
F. Başar, “A note on the triangle limitation methods”, Fırat Univ. Fen & Müh. Bil. Dergisi, 5(1): 113-117 (1993).
R. G. Cooke, “Infinite matrices and sequence spaces”, Macmillan, New York (1950).
J. Connor, “On strong matrix summability with respect to a modulus and statistical convergence”, Canad. Math. Bull. 32: 194-198 (1989).
C. Çakan, H. Çoşkun, “Some new inequalities related to the invariant means and uniformly bounded function sequences”, Applied Math. Lett. 20(6): 605-609 (2007).
H. Çoşkun, C. Çakan, “A class of statistical and σ- conservative matrices”, Czechoslovak Math. J. 55(3): 791-801 (2005).
H. Çoşkun, C. Çakan, Mursaleen, “On the statistical and σ –cores”, Studia Math. 154(1):(2003).
K. Demirci, “A-statistical core of a sequence”, Demonstratio Math., 33: 43-51 (2000).
H. Fast, “Sur la convergence statisque”, Colloq. Math., 2: 241-244 (1951).
A. R. Freedman, J. J. Sember, “Densities and summability”, Pasific J. Math., 95:293-305 (1981).
J. A. Fridy, C. Orhan, “Statistical core theorems”, J. Math. Anal. Appl., 208: 520-527 (1997).
I. J. Maddox, “Elements of Functional Analysis”, Cambridge University Press, Cambridge (1970).
E. Malkowsky, V. Rakoćević, “Measure of noncompactness of linear operators between spaces of sequences that are (N, q) summable or bounded”, Czechoslovac Math. J., 51(126): 505- 522 (2001).
G. M. Petersen, “Regular matrix transformations”, McGraw-Hill, (1966).
A. A. Shcherbakov, “Kernels of sequences of complex numbers and their regular transformations”, Math. Notes, 22: 948-953 (1977).

There are 16 citations in total.

Details

Primary Language	English
Subjects	Engineering
Journal Section	Mathematics
Authors	Celal Çakan Abdullah Alotaıbı This is me
Publication Date	January 14, 2011
Published in Issue	Year 2011 Volume: 24 Issue: 1

Cite

APA	Çakan, C., & Alotaıbı, A. (2011). The Riesz Core of a Sequence. Gazi University Journal of Science, 24(1), 35-39.
AMA	Çakan C, Alotaıbı A. The Riesz Core of a Sequence. Gazi University Journal of Science. January 2011;24(1):35-39.
Chicago	Çakan, Celal, and Abdullah Alotaıbı. “The Riesz Core of a Sequence”. Gazi University Journal of Science 24, no. 1 (January 2011): 35-39.
EndNote	Çakan C, Alotaıbı A (January 1, 2011) The Riesz Core of a Sequence. Gazi University Journal of Science 24 1 35–39.
IEEE	C. Çakan and A. Alotaıbı, “The Riesz Core of a Sequence”, Gazi University Journal of Science, vol. 24, no. 1, pp. 35–39, 2011.
ISNAD	Çakan, Celal - Alotaıbı, Abdullah. “The Riesz Core of a Sequence”. Gazi University Journal of Science 24/1 (January 2011), 35-39.
JAMA	Çakan C, Alotaıbı A. The Riesz Core of a Sequence. Gazi University Journal of Science. 2011;24:35–39.
MLA	Çakan, Celal and Abdullah Alotaıbı. “The Riesz Core of a Sequence”. Gazi University Journal of Science, vol. 24, no. 1, 2011, pp. 35-39.
Vancouver	Çakan C, Alotaıbı A. The Riesz Core of a Sequence. Gazi University Journal of Science. 2011;24(1):35-9.