Let A, B be two unital C^*-algebras. By using fixed pint methods, we prove that every almost unital almost linear mapping h : A →B which satisfies h(2^nuy) = h(2^nu)h(y) for all u ∈ U(A), all y ∈ A, and a...Let A, B be two unital C^*-algebras. By using fixed pint methods, we prove that every almost unital almost linear mapping h : A →B which satisfies h(2^nuy) = h(2^nu)h(y) for all u ∈ U(A), all y ∈ A, and all n = 0,1,2,..., is a homomorphism. Also, we establish the generalized Hyers-Ulam-Rassias stability of ,-homomorphisms on unital C^*-algebras.展开更多
Using fixed point methods, we prove the Hyers–Ulam–Rassias stability and superstability of Jordan homomorphisms (Jordan *-homomorphisms), and Jordan derivations (Jordan *-derivations) on Banach algebras (C*-...Using fixed point methods, we prove the Hyers–Ulam–Rassias stability and superstability of Jordan homomorphisms (Jordan *-homomorphisms), and Jordan derivations (Jordan *-derivations) on Banach algebras (C*-algebras) for the generalized Jensen–type functional equationwhere r is a fixed positive real number in (1, ∞).展开更多
In this paper, the direct method and the fixed point alternative method are implemented to give Hyers-Uiam-Rassias stability of the functional equation 6f(x+y)-6f(x-y)+4f(3y)=3f(x+2y)-3f(x-2y)+9f(2y) i...In this paper, the direct method and the fixed point alternative method are implemented to give Hyers-Uiam-Rassias stability of the functional equation 6f(x+y)-6f(x-y)+4f(3y)=3f(x+2y)-3f(x-2y)+9f(2y) in fuzzy Banach spaces. We can find the range of approximate solutions obtained using the direct method are less than those obtained by using the fixed point alternative method for the above and the functional equation.展开更多
In this paper, we investigate the general solution and the stability of a cubic functional equation f(x + ny) + f(x - ny) + f(nx) = n^2 f(x + y) + n^2 f(x - y)+ (n^3 - 2n^2 + 2)f(x),where n ≥ 2 i...In this paper, we investigate the general solution and the stability of a cubic functional equation f(x + ny) + f(x - ny) + f(nx) = n^2 f(x + y) + n^2 f(x - y)+ (n^3 - 2n^2 + 2)f(x),where n ≥ 2 is an integer. Furthermore, we prove the stability by the fixed point method.展开更多
文摘Let A, B be two unital C^*-algebras. By using fixed pint methods, we prove that every almost unital almost linear mapping h : A →B which satisfies h(2^nuy) = h(2^nu)h(y) for all u ∈ U(A), all y ∈ A, and all n = 0,1,2,..., is a homomorphism. Also, we establish the generalized Hyers-Ulam-Rassias stability of ,-homomorphisms on unital C^*-algebras.
文摘Using fixed point methods, we prove the Hyers–Ulam–Rassias stability and superstability of Jordan homomorphisms (Jordan *-homomorphisms), and Jordan derivations (Jordan *-derivations) on Banach algebras (C*-algebras) for the generalized Jensen–type functional equationwhere r is a fixed positive real number in (1, ∞).
文摘In this paper, the direct method and the fixed point alternative method are implemented to give Hyers-Uiam-Rassias stability of the functional equation 6f(x+y)-6f(x-y)+4f(3y)=3f(x+2y)-3f(x-2y)+9f(2y) in fuzzy Banach spaces. We can find the range of approximate solutions obtained using the direct method are less than those obtained by using the fixed point alternative method for the above and the functional equation.
文摘In this paper, we investigate the general solution and the stability of a cubic functional equation f(x + ny) + f(x - ny) + f(nx) = n^2 f(x + y) + n^2 f(x - y)+ (n^3 - 2n^2 + 2)f(x),where n ≥ 2 is an integer. Furthermore, we prove the stability by the fixed point method.
