Distortion (mathematics)
In mathematics, the distortion is a measure of the amount by which a function from the Euclidean plane to itself distorts circles to ellipses. If the distortion of a function is equal to one, then it is conformal; if the distortion is bounded and the function is a homeomorphism, then it is quasiconformal. The distortion of a function ƒ of the plane is given by
- [math]\displaystyle{ H(z,f) = \limsup_{r\to 0}\frac{\max_{|h|=r}|f(z+h)-f(z)|}{\min_{|h|=r}|f(z+h)-f(z)|} }[/math]
which is the limiting eccentricity of the ellipse produced by applying ƒ to small circles centered at z. This geometrical definition is often very difficult to work with, and the necessary analytical features can be extrapolated to the following definition. A mapping ƒ : Ω → R2 from an open domain in the plane to the plane has finite distortion at a point x ∈ Ω if ƒ is in the Sobolev space W1,1loc(Ω, R2), the Jacobian determinant J(x,ƒ) is locally integrable and does not change sign in Ω, and there is a measurable function K(x) ≥ 1 such that
- [math]\displaystyle{ |Df(x)|^2 \le K(x)|J(x,f)| }[/math]
almost everywhere. Here Df is the weak derivative of ƒ, and |Df| is the Hilbert–Schmidt norm.
For functions on a higher-dimensional Euclidean space Rn, there are more measures of distortion because there are more than two principal axes of a symmetric tensor. The pointwise information is contained in the distortion tensor
- [math]\displaystyle{ G(x,f) = \begin{cases} |J(x,f)|^{-2/n}D^Tf(x)Df(x)&\text{if }J(x,f)\not=0\\ I &\text{if }J(x,f)=0. \end{cases} }[/math]
The outer distortion KO and inner distortion KI are defined via the Rayleigh quotients
- [math]\displaystyle{ K_O(x) = \sup_{\xi\not=0}\frac{\langle G(x)\xi,\xi\rangle^{n/2}}{|\xi|^n},\quad K_O(x) = \sup_{\xi\not=0}\frac{\langle G^{-1}(x)\xi,\xi\rangle^{n/2}}{|\xi|^n}. }[/math]
The outer distortion can also be characterized by means of an inequality similar to that given in the two-dimensional case. If Ω is an open set in Rn, then a function ƒ ∈ W1,1loc(Ω,Rn) has finite distortion if its Jacobian is locally integrable and does not change sign, and there is a measurable function KO (the outer distortion) such that
- [math]\displaystyle{ |Df(x)|^n \le K_O(x)|J(x,f)| }[/math]
almost everywhere.
See also
References
- Iwaniec, Tadeusz; Martin, Gaven (2001), Geometric function theory and non-linear analysis, Oxford Mathematical Monographs, The Clarendon Press Oxford University Press, ISBN 978-0-19-850929-5.
- Reshetnyak, Yu. G. (1989), Space mappings with bounded distortion, Translations of Mathematical Monographs, 73, Providence, R.I.: American Mathematical Society, ISBN 978-0-8218-4526-4.
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