DBLP: Ekrem Savas

	2012
j36		Ekrem Savas, Pratulananda Das, Sudipta Dutta: A note on strong matrix summability via ideals. Appl. Math. Lett. 25(4): 733-738 (2012)
j35		Richard F. Patterson, Ekrem Savas: RH-conservative matrix characterization of P-convergence in probability. Computers & Mathematics with Applications 63(6): 1020-1025 (2012)
j34		Ekrem Savas: Some double lacunary I-convergent sequence spaces of fuzzy numbers defined by Orlicz function. Journal of Intelligent and Fuzzy Systems 23(5): 249-257 (2012)
j33		Ekrem Savas: A note on double lacunary statistical $$\sigma$$ -convergence of fuzzy numbers. Soft Comput. 16(4): 591-595 (2012)
	2011
j32		Ekrem Savas: On infinite matrices and lacunary σ-convergence. Applied Mathematics and Computation 218(3): 1036-1040 (2011)
j31		Hamdullah Sevli, Ekrem Savas: On general summability factor theorem of infinite series. Applied Mathematics and Computation 218(3): 1046-1051 (2011)
j30		Ekrem Savas, Pratulananda Das: A generalized statistical convergence via ideals. Appl. Math. Lett. 24(6): 826-830 (2011)
j29		Pratulananda Das, Ekrem Savas, Sanjoy Kr. Ghosal: On generalizations of certain summability methods using ideals. Appl. Math. Lett. 24(9): 1509-1514 (2011)
j28		Richard F. Patterson, Ekrem Savas: A category theorem for double sequences. Appl. Math. Lett. 24(10): 1680-1684 (2011)
j27		T. Selmanogullari, Ekrem Savas, B. E. Rhoades: Type M for E-J generalized quasi-Hausdorff matrices. Computers & Mathematics with Applications 61(2): 178-181 (2011)
j26		Vatan Karakaya, Ekrem Savas: On almost p-bounded variation of lacunary sequences. Computers & Mathematics with Applications 61(6): 1502-1506 (2011)
j25		Bipan Hazarika, Ekrem Savas: Some I-convergent lambda-summable difference sequence spaces of fuzzy real numbers defined by a sequence of Orlicz functions. Mathematical and Computer Modelling 54(11-12): 2986-2998 (2011)
j24		Ekrem Savas, B. E. Rhoades: Necessary conditions for absolute double matrix summability factors. Periodica Mathematica Hungarica 62(2): 121-126 (2011)
	2010
j23		Ekrem Savas: On generalized quasi-beta-power increasing sequences. Appl. Math. Lett. 23(1): 87-91 (2010)
j22		Richard F. Patterson, Ekrem Savas: Consistent classes of double summability methods. Appl. Math. Lett. 23(8): 831-835 (2010)
j21		Ekrem Savas: On generalized A_k-summability factors. Computers & Mathematics with Applications 59(1): 514-518 (2010)
	2009
j20		Pratulananda Das, Prasanta Malik, Ekrem Savas: On statistical limit points of double sequences. Applied Mathematics and Computation 215(3): 1030-1034 (2009)
j19		Ekrem Savas, B. E. Rhoades: An inclusion theorem for double Cesàro matrices over the space of absolutely k-convergent double series. Appl. Math. Lett. 22(9): 1462-1466 (2009)
j18		Richard F. Patterson, Ekrem Savas: Regularity characterization of asymptotically probability equivalent sequences. Appl. Math. Lett. 22(10): 1491-1495 (2009)
j17		Ekrem Savas: An absolute double summability factor theorem. Mathematical and Computer Modelling 49(5-6): 1127-1136 (2009)
	2008
j16		Ekrem Savas: (A_sigma)-double sequence spaces defined by Orlicz function and double statistical convergence. Computers & Mathematics with Applications 55(6): 1293-1301 (2008)
j15		Ekrem Savas: On absolute summability factors of infinite series. Computers & Mathematics with Applications 56(1): 25-29 (2008)
j14		Ekrem Savas: A summability factor theorem for absolute summability involving δ-quasi-monotone and almost increasing sequences. Mathematical and Computer Modelling 48(11-12): 1750-1754 (2008)
	2007
j13		Ekrem Savas: On some new double sequence spaces defined by a modulus. Applied Mathematics and Computation 187(1): 417-424 (2007)
j12		Richard F. Patterson, Ekrem Savas: Multidimensional matrix characterizations of the Banach and Pringsheim core. Appl. Math. Lett. 20(4): 359-365 (2007)
j11		Ekrem Savas, Hamdullah Sevli: On extension of a result of Flett for Cesáro matrices. Appl. Math. Lett. 20(4): 476-478 (2007)
j10		Ekrem Savas, Richard F. Patterson: Double sequence spaces characterized by lacunary sequences. Appl. Math. Lett. 20(9): 964-970 (2007)
j9		Ekrem Savas, Richard F. Patterson: Erratum to "Lacunary statistical convergence of multiple sequences" [Appl. Math. Lett. 19(2006) 527-534]. Appl. Math. Lett. 20(11): 1174 (2007)
j8		Ekrem Savas: Factors for A_k summability of infinite series. Computers & Mathematics with Applications 53(7): 1045-1049 (2007)
j7		Ekrem Savas: A summability factor theorem involving an almost increasing sequence for generalized absolute summability. Computers & Mathematics with Applications 54(11-12): 1380-1386 (2007)
	2006
j6		Ekrem Savas, Richard F. Patterson: Lacunary statistical convergence of multiple sequences. Appl. Math. Lett. 19(6): 527-534 (2006)
j5		Mohammad Mursaleen, Ekrem Savas, M. Aiyub, Syed Abdul Mohiuddine: Matrix transformations between the spaces of Cesàro sequences and invariant means. Int. J. Math. Mathematical Sciences 2006 (2006)
	2005
j4		Ekrem Savas: On a recent result on absolute summability factors. Appl. Math. Lett. 18(11): 1273-1280 (2005)
j3		B. E. Rhoades, Ekrem Savas: A note on absolute summability factors. Periodica Mathematica Hungarica 51(1): 53-60 (2005)
	2004
j2		B. E. Rhoades, Ekrem Savas: A summability factor theorem and applications. Applied Mathematics and Computation 153(1): 155-163 (2004)
j1		B. E. Rhoades, Ekrem Savas: Local property of absolute weighted mean summability of Fourier series. Applied Mathematics and Computation 153(2): 445-452 (2004)

2012

j36

Ekrem Savas, Pratulananda Das, Sudipta Dutta: A note on strong matrix summability via ideals. Appl. Math. Lett. 25(4): 733-738 (2012)

j35

Richard F. Patterson, Ekrem Savas: RH-conservative matrix characterization of P-convergence in probability. Computers & Mathematics with Applications 63(6): 1020-1025 (2012)

j34

Ekrem Savas: Some double lacunary I-convergent sequence spaces of fuzzy numbers defined by Orlicz function. Journal of Intelligent and Fuzzy Systems 23(5): 249-257 (2012)

j33

Ekrem Savas: A note on double lacunary statistical $$\sigma$$ -convergence of fuzzy numbers. Soft Comput. 16(4): 591-595 (2012)

2011

j32

Ekrem Savas: On infinite matrices and lacunary σ-convergence. Applied Mathematics and Computation 218(3): 1036-1040 (2011)

j31

Hamdullah Sevli, Ekrem Savas: On general summability factor theorem of infinite series. Applied Mathematics and Computation 218(3): 1046-1051 (2011)

j30

Ekrem Savas, Pratulananda Das: A generalized statistical convergence via ideals. Appl. Math. Lett. 24(6): 826-830 (2011)

j29

Pratulananda Das, Ekrem Savas, Sanjoy Kr. Ghosal: On generalizations of certain summability methods using ideals. Appl. Math. Lett. 24(9): 1509-1514 (2011)

j28

Richard F. Patterson, Ekrem Savas: A category theorem for double sequences. Appl. Math. Lett. 24(10): 1680-1684 (2011)

j27

T. Selmanogullari, Ekrem Savas, B. E. Rhoades: Type M for E-J generalized quasi-Hausdorff matrices. Computers & Mathematics with Applications 61(2): 178-181 (2011)

j26

Vatan Karakaya, Ekrem Savas: On almost p-bounded variation of lacunary sequences. Computers & Mathematics with Applications 61(6): 1502-1506 (2011)

j25

Bipan Hazarika, Ekrem Savas: Some I-convergent lambda-summable difference sequence spaces of fuzzy real numbers defined by a sequence of Orlicz functions. Mathematical and Computer Modelling 54(11-12): 2986-2998 (2011)

j24

Ekrem Savas, B. E. Rhoades: Necessary conditions for absolute double matrix summability factors. Periodica Mathematica Hungarica 62(2): 121-126 (2011)

2010

j23

Ekrem Savas: On generalized quasi-beta-power increasing sequences. Appl. Math. Lett. 23(1): 87-91 (2010)

j22

Richard F. Patterson, Ekrem Savas: Consistent classes of double summability methods. Appl. Math. Lett. 23(8): 831-835 (2010)

j21

Ekrem Savas: On generalized A_k-summability factors. Computers & Mathematics with Applications 59(1): 514-518 (2010)

2009

j20

Pratulananda Das, Prasanta Malik, Ekrem Savas: On statistical limit points of double sequences. Applied Mathematics and Computation 215(3): 1030-1034 (2009)

j19

Ekrem Savas, B. E. Rhoades: An inclusion theorem for double Cesàro matrices over the space of absolutely k-convergent double series. Appl. Math. Lett. 22(9): 1462-1466 (2009)

j18

Richard F. Patterson, Ekrem Savas: Regularity characterization of asymptotically probability equivalent sequences. Appl. Math. Lett. 22(10): 1491-1495 (2009)

j17

Ekrem Savas: An absolute double summability factor theorem. Mathematical and Computer Modelling 49(5-6): 1127-1136 (2009)

2008

j16

Ekrem Savas: (A_sigma)-double sequence spaces defined by Orlicz function and double statistical convergence. Computers & Mathematics with Applications 55(6): 1293-1301 (2008)

j15

Ekrem Savas: On absolute summability factors of infinite series. Computers & Mathematics with Applications 56(1): 25-29 (2008)

j14

Ekrem Savas: A summability factor theorem for absolute summability involving δ-quasi-monotone and almost increasing sequences. Mathematical and Computer Modelling 48(11-12): 1750-1754 (2008)

2007

j13

Ekrem Savas: On some new double sequence spaces defined by a modulus. Applied Mathematics and Computation 187(1): 417-424 (2007)

j12

Richard F. Patterson, Ekrem Savas: Multidimensional matrix characterizations of the Banach and Pringsheim core. Appl. Math. Lett. 20(4): 359-365 (2007)

j11

Ekrem Savas, Hamdullah Sevli: On extension of a result of Flett for Cesáro matrices. Appl. Math. Lett. 20(4): 476-478 (2007)

j10

Ekrem Savas, Richard F. Patterson: Double sequence spaces characterized by lacunary sequences. Appl. Math. Lett. 20(9): 964-970 (2007)

Ekrem Savas, Richard F. Patterson: Erratum to "Lacunary statistical convergence of multiple sequences" [Appl. Math. Lett. 19(2006) 527-534]. Appl. Math. Lett. 20(11): 1174 (2007)

Ekrem Savas: Factors for A_k summability of infinite series. Computers & Mathematics with Applications 53(7): 1045-1049 (2007)

Ekrem Savas: A summability factor theorem involving an almost increasing sequence for generalized absolute summability. Computers & Mathematics with Applications 54(11-12): 1380-1386 (2007)

2006

Ekrem Savas, Richard F. Patterson: Lacunary statistical convergence of multiple sequences. Appl. Math. Lett. 19(6): 527-534 (2006)

Mohammad Mursaleen, Ekrem Savas, M. Aiyub, Syed Abdul Mohiuddine: Matrix transformations between the spaces of Cesàro sequences and invariant means. Int. J. Math. Mathematical Sciences 2006 (2006)

2005

Ekrem Savas: On a recent result on absolute summability factors. Appl. Math. Lett. 18(11): 1273-1280 (2005)

B. E. Rhoades, Ekrem Savas: A note on absolute summability factors. Periodica Mathematica Hungarica 51(1): 53-60 (2005)

2004

B. E. Rhoades, Ekrem Savas: A summability factor theorem and applications. Applied Mathematics and Computation 153(1): 155-163 (2004)

B. E. Rhoades, Ekrem Savas: Local property of absolute weighted mean summability of Fourier series. Applied Mathematics and Computation 153(2): 445-452 (2004)

1	M. Aiyub	[j5]
2	Pratulananda Das	[j36] [j30] [j29] [j20]
3	Sudipta Dutta	[j36]
4	Sanjoy Kr. Ghosal	[j29]
5	Bipan Hazarika	[j25]
6	Vatan Karakaya	[j26]
7	Prasanta Malik	[j20]
8	Syed Abdul Mohiuddine (S. A. Mohiuddine)	[j5]
9	Mohammad Mursaleen	[j5]
10	Richard F. Patterson	[j35] [j28] [j22] [j18] [j12] [j10] [j9] [j6]
11	B. E. Rhoades	[j27] [j24] [j19] [j3] [j2] [j1]
12	T. Selmanogullari	[j27]
13	Hamdullah Sevli	[j31] [j11]

Ekrem Savas

Coauthor Index