On the Cauchy equation modulo Z

“…In the present paper we obtain results which correspond to those of Baron et al from [2] and results of Baron and Volkmann from [3]. Namely, we present analogues of results from [2,3] for polynomial congruences of degree greater than 1.…”

“…Namely, we present analogues of results from [2,3] for polynomial congruences of degree greater than 1. Below we cite one of the characterizations of decent solutions of the Cauchy's congruence from [2], because we use it in Remark 1.3: When dealing with polynomial functions the inductional approach may always come in mind.…”

On polynomial congruences

“…In the present paper we obtain results which correspond to those of Baron et al from [2] and results of Baron and Volkmann from [3]. Namely, we present analogues of results from [2,3] for polynomial congruences of degree greater than 1.…”

“…Namely, we present analogues of results from [2,3] for polynomial congruences of degree greater than 1. Below we cite one of the characterizations of decent solutions of the Cauchy's congruence from [2], because we use it in Remark 1.3: When dealing with polynomial functions the inductional approach may always come in mind.…”

On polynomial congruences

“…, y ∈ U} for n ∈ N. The next proposition and two theorems correspond to the results contained in [4], [6] and [7]. Proposition 2.4.…”

“…Let X be a real topological linear space, (G, +) be a commutative topological group without elements of order 2, K be a discrete subgroup of G, and f : X → G be a continuous at the origin function satisfying (6). Then 2f (0) ∈ K and there is a unique quadratic function q : X → G, continuous at the origin, such that (7) holds.…”

“…Let X and W be just the same as in Lemma 2.3. Suppose that (G, +) is a commutative group without elements of order 2, K is a subgroup of G, U = ∅ is a subset of G with U = −U and U (6) …”

On orthogonally exponential functionals

Stability of Functional Equations in Several Variables