Kirszbraun’s Theorem via an Explicit Formula
Canadian mathematical bulletin, Tome 64 (2021) no. 1, pp. 142-153
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Let $X,Y$ be two Hilbert spaces, let E be a subset of $X,$ and let $G\colon E \to Y$ be a Lipschitz mapping. A famous theorem of Kirszbraun’s states that there exists $\tilde {G} : X \to Y$ with $\tilde {G}=G$ on E and $ \operatorname {\mathrm {Lip}}(\tilde {G})= \operatorname {\mathrm {Lip}}(G).$ In this note we show that in fact the function $\tilde {G}:=\nabla _Y( \operatorname {\mathrm {conv}} (g))( \cdot , 0)$, where $$\begin{align*}g(x,y) = \inf_{z \in E} \Big\lbrace \langle G(z), y \rangle + \frac{\operatorname{\mathrm{Lip}}(G)}{2} \|(x-z,y)\|^2 \Big\rbrace + \frac{\operatorname{\mathrm{Lip}}(G)}{2}\|(x,y)\|^2, \end{align*}$$defines such an extension. We apply this formula to get an extension result for strongly biLipschitz mappings. Related to the latter, we also consider extensions of $C^{1,1}$ strongly convex functions.
Azagra, Daniel; Gruyer, Erwan Le; Mudarra, Carlos. Kirszbraun’s Theorem via an Explicit Formula. Canadian mathematical bulletin, Tome 64 (2021) no. 1, pp. 142-153. doi: 10.4153/S0008439520000314
@article{10_4153_S0008439520000314,
author = {Azagra, Daniel and Gruyer, Erwan Le and Mudarra, Carlos},
title = {Kirszbraun{\textquoteright}s {Theorem} via an {Explicit} {Formula}},
journal = {Canadian mathematical bulletin},
pages = {142--153},
year = {2021},
volume = {64},
number = {1},
doi = {10.4153/S0008439520000314},
url = {http://geodesic.mathdoc.fr/articles/10.4153/S0008439520000314/}
}
TY - JOUR AU - Azagra, Daniel AU - Gruyer, Erwan Le AU - Mudarra, Carlos TI - Kirszbraun’s Theorem via an Explicit Formula JO - Canadian mathematical bulletin PY - 2021 SP - 142 EP - 153 VL - 64 IS - 1 UR - http://geodesic.mathdoc.fr/articles/10.4153/S0008439520000314/ DO - 10.4153/S0008439520000314 ID - 10_4153_S0008439520000314 ER -
%0 Journal Article %A Azagra, Daniel %A Gruyer, Erwan Le %A Mudarra, Carlos %T Kirszbraun’s Theorem via an Explicit Formula %J Canadian mathematical bulletin %D 2021 %P 142-153 %V 64 %N 1 %U http://geodesic.mathdoc.fr/articles/10.4153/S0008439520000314/ %R 10.4153/S0008439520000314 %F 10_4153_S0008439520000314
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