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Schröder functional equation

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The equation

\begin{equation} \tag{a1} \phi ( f ( x ) ) = \lambda \phi ( x ), \end{equation}

where $\phi$ is the unknown function and $f ( x )$ is a known real-valued function of a real variable $x$. I.e. one asks for the eigenvalues and eigenfunctions of the composition operator (substitution operator) $\phi \mapsto \phi \circ f$. Sometimes $\lambda$ is allowed to be a function itself.

One also considers the non-autonomous Schröder functional equation

\begin{equation*} \phi ( f ( x ) ) = g ( x ) \phi ( x ) + h ( x ). \end{equation*}

The Schröder and Abel functional equations (see also Functional equation) have much to do with the translation functional equation

\begin{equation*} \phi ( \phi ( s , u ) , v ) = \phi ( s , u ^ { * } v ), \end{equation*}

\begin{equation*} s \in S , u , v \in H , \phi : S \times H \rightarrow S, \end{equation*}

where $H$ is a semi-group, which asks for something like a right action of $H$ on $S$, [a1], [a4].

The equation was formulated by E. Schröder, [a5], and there is an extensive body of literature.

References

[a1] J. Aczél, "A short course on functional equations" , Reidel (1987)
[a2] M. Kuczma, "On the Schröder operator" , PWN (1963)
[a3] M. Kuczma, "Functional equations in a single variable" , PWN (1968)
[a4] G. Targonski, "Topics in iteration theory" , Vandenhoeck and Ruprecht (1981) pp. 82ff.
[a5] E. Schröder, "Uber iterierte Funktionen III" Math. Ann. , 3 (1970) pp. 296–322
[a6] J. Walorski, "Convex solutions of the Schröder equation in Banach spaces" Proc. Amer. Math. Soc. , 125 (1997) pp. 153–158
How to Cite This Entry:
Schroeder functional equation. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Schroeder_functional_equation&oldid=23521