Abel equation

The Abel equation, named after Niels Henrik Abel, is a type of functional equation which can be written in the form

f(h(x)) = h(x + 1)

or, equivalently,

\alpha(f(x))=\alpha(x)+1

and controls the iteration of $f$ .

Equivalence

These equations are equivalent. Assuming that $α$ is an invertible function, the second equation can be written as

\alpha^{-1}(\alpha(f(x)))=\alpha^{-1}(\alpha(x)+1)\, .

Taking $x = α -1 (y)$ , the equation can be written as

f(\alpha^{-1}(y))=\alpha^{-1}(y+1)\, .

For a function $f (x)$ assumed to be known, the task is to solve the functional equation for the function $α -1 \equiv h$ , possibly satisfying additional requirements, such as $α -1 (0) = 1$ .

The change of variables $s α (x) = Ψ(x)$ , for a real parameter $s$ , brings Abel's equation into the celebrated Schröder's equation, $Ψ(f (x)) = s Ψ(x)$ .

The further change $F (x) = exp(s α (x))$ into Böttcher's equation, $F (f (x)) = F (x) s$ .

The Abel equation is a special case of (and easily generalizes to) the translation equation,^[1]

\omega( \omega(x,u),v)=\omega(x,u+v) ~,

e.g., for $\omega(x,1)= f(x)$ ,

\omega(x,u)= \alpha^{-1}(\alpha(x)+u)

. (Observe

ω (x,0) = x

.) <templatestyles src="Module:Hatnote/styles.css"></templatestyles>

History

Initially, the equation in the more general form ^[2] ^[3] was reported. Even in the case of a single variable, the equation is non-trivial, and admits special analysis.^[4] ^[5]^[6]

In the case of a linear transfer function, the solution is expressible compactly. ^[7]

Special cases

The equation of tetration is a special case of Abel's equation, with $f = exp$ .

In the case of an integer argument, the equation encodes a recurrent procedure, e.g.,

\alpha(f(f(x)))=\alpha(x)+2 ~,

and so on,

\alpha(f_n(x))=\alpha(x)+n ~.

Fatou coordinates represent solutions of Abel's equation, describing local dynamics of discrete dynamical system near a parabolic fixed point.^[8]

References

↑ Aczél, János, (1966): Lectures on Functional Equations and Their Applications, Academic Press, reprinted by Dover Publications, ISBN 0486445232 .
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↑ Korkine, A (1882). "Sur un problème d'interpolation", Bull Sci Math & Astron 6(1) 228—242. online
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↑ Dudko, Artem (2012). Dynamics of holomorphic maps: Resurgence of Fatou coordinates, and Poly-time computability of Julia sets Ph.D. Thesis

[1] Aczél, János, (1966): Lectures on Functional Equations and Their Applications, Academic Press, reprinted by Dover Publications, ISBN 0486445232 .

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[4] Korkine, A (1882). "Sur un problème d'interpolation", Bull Sci Math & Astron 6(1) 228—242. online

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[8] Dudko, Artem (2012). Dynamics of holomorphic maps: Resurgence of Fatou coordinates, and Poly-time computability of Julia sets Ph.D. Thesis

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Abel equation

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Equivalence

History

Special cases

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References

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