[KSCI] Korea Science Citation Index Service

http://dx.doi.org/10.7468/jksmeb.2016.23.3.287

FUZZY STABILITY OF AN AQCQ-FUNCTIONAL EQUATION IN MATRIX FUZZY NORMED SPACES

LEE, JUNG RYE (DEPARTMENT OF MATHEMATICS, DAEJIN UNIVERSITY)
SHIN, DONG-YUN (DEPARTMENT OF MATHEMATICS, UNIVERSITY OF SEOUL)

Publication Information

The Pure and Applied Mathematics / v.23, no.3, 2016 , pp. 287-307 More about this Journal

Abstract

Using the fixed point method, we prove the Hyers-Ulam stability of an additive-quadratic-cubic-quartic functional equation in matrix fuzzy normed spaces.

Keywords

operator space; fixed point; Hyers-Ulam stability; matrix fuzzy normed space; additive-quadratic-cubic-quartic functional equation;

Citations & Related Records

Reference

1	Y. Lan & Y. Shen: The general solution of a quadratic functional equation and Ulam stability. J. Nonlinear Sci. Appl. 8 (2015), 640-649. DOI
2	S. Lee, S. Im & I. Hwang: Quartic functional equations. J. Math. Anal. Appl. 307 (2005), 387-394. DOI
3	T. Li, A. Zada & S. Faisal: Hyers-Ulam stability of nth order linear differential equations. J. Nonlinear Sci. Appl. 9 (2016), 2070-2075. DOI
4	D. Miheţ & V. Radu: On the stability of the additive Cauchy functional equation in random normed spaces. J. Math. Anal. Appl. 343 (2008), 567-572. DOI
5	M. Mirzavaziri & M.S. Moslehian: A fixed point approach to stability of a quadratic equation. Bull. Braz. Math. Soc. 37 (2006), 361-376. DOI
6	C. Park: Homomorphisms between Poisson JC*-algebras. Bull. Braz. Math. Soc. 36 (2005), 79-97. DOI
7	A.K. Mirmostafaee, M. Mirzavaziri & M.S. Moslehian: Fuzzy stability of the Jensen functional equation. Fuzzy Sets and Systems 159 (2008), 730-738. DOI
8	A.K. Mirmostafaee & M.S. Moslehian: Fuzzy versions of Hyers-Ulam-Rassias theorem, Fuzzy Sets and Systems 159 (2008), 720-729. DOI
9	A.K. Mirmostafaee & M.S. Moslehian: Fuzzy approximately cubic mappings. Inform. Sci. 178 (2008), 3791-3798. DOI
10	C. Park: Fixed points and Hyers-Ulam-Rassias stability of Cauchy-Jensen functional equations in Banach algebras, Fixed Point Theory and Applications 2007, Art. ID 50175 (2007).
11	C. Park: Generalized Hyers-Ulam-Rassias stability of quadratic functional equations: a fixed point approach. Fixed Point Theory and Applications 2008, Art. ID 493751 (2008).
12	C. Park, Y. Cho & H.A. Kenary: Orthogonal stability of a generalized quadratic functional equation in non-Archimedean spaces. J. Comput. Anal. Appl. 14 (2012), 526-535.
13	G. Pisier: Grothendieck's Theorem for non-commutative C*-algebras with an appendix on Grothendieck's constants. J. Funct. Anal. 29 (1978), 397-415. DOI
14	V. Radu: The fixed point alternative and the stability of functional equations. Fixed Point Theory 4 (2003), 91-96.
15	J.M. Rassias: On approximation of approximately linear mappings by linear mappings. J. Funct. Anal. 46 (1982) 126-130. DOI
16	J.M. Rassias: Solution of a problem of Ulam. J. Approx. Theory 57 (1989), 268-273. DOI
17	Th.M. Rassias: On the stability of the linear mapping in Banach spaces. Proc. Amer. Math. Soc. 72 (1978), 297-300. DOI
18	Th.M. Rassias: On the stability of functional equations and a problem of Ulam. Acta Math. Appl. 62 (2000), 23-130. DOI
19	Th.M. Rassias: Problem 16; 2, Report of the 27^th International Symp. on Functional Equations. Aequationes Math. 39 (1990), 292-293; 309.
20	Th.M. Rassias (ed.): Functional Equations and Inequalities Kluwer Academic, Dordrecht, 2000.
21	Th.M. Rassias: On the stability of functional equations in Banach spaces. J. Math. Anal. Appl. 251 (2000), 264-284. DOI
22	Th.M. Rassias & P. Šemrl: On the behaviour of mappings which do not satisfy Hyers-Ulam stability. Proc. Amer. Math. Soc. 114 (1992), 989-993. DOI
23	Z.-J. Ruan: Subspaces of C*-algebras. J. Funct. Anal. 76 (1988), 217-230. DOI
24	F. Skof: Proprietà locali e approssimazione di operatori. Rend. Sem. Mat. Fis. Milano 53 (1983), 113-129. DOI
25	R. Saadati & C. Park: Non-Archimedean𝓛 -fuzzy normed spaces and stability of functional equations. Computers Math. Appl. 60 (2010), 2488-2496. DOI
26	Y. Shen: An integrating factor approach to the Hyers-Ulam stability of a class of exact differential equations of second order. J. Nonlinear Sci. Appl. 9 (2016), 2520-2526. DOI
27	D. Shin, S. Lee, C. Byun & S. Kim: On matrix normed spaces. Bull. Korean Math. Soc. 27 (1983), 103-112.
28	S.M. Ulam: A Collection of the Mathematical Problems. Interscience Publ. New York, 1960.
29	J.Z. Xiao & X.H. Zhu: Fuzzy normed spaces of operators and its completeness. Fuzzy Sets and Systems 133 (2003), 389-399.
30	J. Bae & W. Park: On the Ulam stability of the Cauchy-Jensen equation and the additive-quadratic equation. J. Nonlinear Sci. Appl. 8 (2015), 710-718. DOI
31	J. Aczel & J. Dhombres: Functional Equations in Several Variables. Cambridge Univ. Press, Cambridge, 1989.
32	T. Aoki: On the stability of the linear transformation in Banach spaces. J. Math. Soc. Japan 2 (1950), 64-66. DOI
33	T. Bag & S.K. Samanta: Finite dimensional fuzzy normed linear spaces. J. Fuzzy Math. 11 (2003), 687-705.
34	T. Bag & S.K. Samanta: Fuzzy bounded linear operators. Fuzzy Sets and Systems 151 (2005), 513-547. DOI
35	L. Cӑdariu & V. Radu: Fixed points and the stability of Jensen’s functional equation. J. Inequal. Pure Appl. Math. 4, no. 1, Art. ID 4 (2003).
36	L. Cӑdariu & V. Radu: On the stability of the Cauchy functional equation: a fixed point approach. Grazer Math. Ber. 346 (2004), 43-52.
37	Y. Cho, C. Park, Th.M. Rassias & R. Saadati: Inner product spaces and functional equations. J. Comput. Anal. Appl. 13 (2011), 296-304.
38	L. Cӑdariu & V. Radu: Fixed point methods for the generalized stability of functional equations in a single variable. Fixed Point Theory and Applications 2008, Art. ID 749392 (2008).
39	S.C. Cheng & J.M. Mordeson: Fuzzy linear operators and fuzzy normed linear spaces. Bull. Calcutta Math. Soc. 86 (1994), 429-436.
40	Y. Cho, J. Kang & R. Saadati: Fixed points and stability of additive functional equations on the Banach algebras. J. Comput. Anal. Appl. 14 (2012), 1103-1111.
41	S. Czerwik: On the stability of the quadratic mapping in normed spaces. Abh. Math. Sem. Univ. Hamburg 62 (1992), 59-64. DOI
42	Y. Cho, C. Park & R. Saadati: Functional inequalities in non-Archimedean Banach spaces. Appl. Math. Letters 23 (2010), 1238-1242. DOI
43	M.-D. Choi & E. Effros: Injectivity and operator spaces. J. Funct. Anal. 24 (1977), 156-209. DOI
44	P.W. Cholewa: Remarks on the stability of functional equations. Aequationes Math. 27 (1984), 76-86. DOI
45	S. Czerwik: The stability of the quadratic functional equation. in: Stability of mappings of Hyers-Ulam type, (ed. Th.M. Rassias and J.Tabor), Hadronic Press, Palm Harbor, Florida, 1994, 81-91.
46	P. Czerwik: Functional Equations and Inequalities in Several Variables. World Scientific Publishing Company, New Jersey, Hong Kong, Singapore and London, 2002.
47	J. Diaz & B. Margolis: A fixed point theorem of the alternative for contractions on a generalized complete metric space. Bull. Amer. Math. Soc. 74 (1968), 305-309. DOI
48	E. Effros & Z.-J. Ruan: On the abstract characterization of operator spaces. Proc. Amer. Math. Soc. 119 (1993), 579-584. DOI
49	E. Effros: On multilinear completely bounded module maps. Contemp. Math. 62, Amer. Math. Soc.. Providence, RI, 1987, pp. 479-501.
50	E. Effros & Z.-J. Ruan: On approximation properties for operator spaces. Internat. J. Math. 1 (1990), 163-187. DOI
51	M. Eshaghi Gordji, S. Abbaszadeh & C. Park: On the stability of a generalized quadratic and quartic type functional equation in quasi-Banach spaces. J. Inequal. Appl. 2009, Article ID 153084 (2009).
52	Z. Gajda: On stability of additive mappings. Internat. J. Math. Math. Sci. 14 (1991), 431-434. DOI
53	M. Eshaghi Gordji, S. Kaboli-Gharetapeh, C. Park & S. Zolfaghri: Stability of an additive-cubic-quartic functional equation. Advances in Difference Equations 2009, Article ID 395693 (2009).
54	M. Eshaghi Gordji & M.B. Savadkouhi: Stability of a mixed type cubic-quartic functional equation in non-Archimedean spaces. Appl. Math. Letters 23 (2010), 1198-1202. DOI
55	C. Felbin: Finite dimensional fuzzy normed linear spaces. Fuzzy Sets and Systems 48 (1992), 239-248. DOI
56	P. Găvruta: A generalization of the Hyers-Ulam-Rassias stability of approximately additive mappings. J. Math. Anal. Appl. 184 (1994), 431-436. DOI
57	U. Haagerup: Decomp. of completely bounded maps. unpublished manuscript.
58	D.H. Hyers: On the stability of the linear functional equation. Proc. Nat. Acad. Sci. U.S.A. 27 (1941), 222-224. DOI
59	D.H. Hyers, G. Isac & Th.M. Rassias: Stability of Functional Equations in Several Variables. Birkhäuser, Basel, 1998.
60	G. Isac & Th.M. Rassias: On the Hyers-Ulam stability of ψ-additive mappings. J. Approx. Theory 72 (1993), 131-137. DOI
61	G. Isac & Th.M. Rassias: Stability of ψ-additive mappings: Appications to nonlinear analysis. Internat. J. Math. Math. Sci. 19 (1996), 219-228. DOI
62	K. Jun & H. Kim: The generalized Hyers-Ulam-Rassias stability of a cubic functional equation. J. Math. Anal. Appl. 274 (2002), 867-878. DOI
63	K. Jun & Y. Lee: A generalization of the Hyers-Ulam-Rassias stability of the Pexiderized quadratic equations. J. Math. Anal. Appl. 297 (2004), 70-86. DOI
64	H.A. Kenary & Th.M. Rassias: Non-Archimedean stability of partitioned functional equations. Appl. Comput. Math. 12 (2013), 76-90.
65	S. Jung: Hyers-Ulam-Rassias Stability of Functional Equations in Mathematical Analysis. Hadronic Press lnc., Palm Harbor, Florida, 2001.
66	Y. Jung & I. Chang: The stability of a cubic type functional equation with the fixed point alternative. J. Math. Anal. Appl. 306 (2005), 752-760. DOI
67	A.K. Katsaras: Fuzzy topological vector spaces II. Fuzzy Sets and Systems 12 (1984), 143-154. DOI
68	S. Kim, A. Bodaghi & C. Park: Stability of functional inequalities associated with the Cauchy-Jensen additive functional equalities in non-Archimedean Banach spaces. J. Nonlinear Sci. Appl. 8 (2015), 776-786. DOI
69	I. Kramosil & J. Michalek: Fuzzy metric and statistical metric spaces. Kybernetica 11 (1975), 326-334.
70	S.V. Krishna & K.K.M. Sarma: Separation of fuzzy normed linear spaces. Fuzzy Sets and Systems 63 (1994), 207-217. DOI