Boundary regularity for the distance functions, and the eikonal equation

Nikolai Nikolov, Pascal J. Thomas
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Abstract

We study the gain in regularity of the distance to the boundary of a domain in $\R^m$. In particular, we show that if the signed distance function happens to be merely differentiable in a neighborhood of a boundary point, it and the boundary have to be $\mathcal C^{1,1}$ regular. Conversely, we study the regularity of the distance function under regularity hypotheses of the boundary. Along the way, we point out that any solution to the eikonal equation, differentiable everywhere in a domain of the Euclidean space, admits a gradient which is locally Lipschitz.
距离函数的边界正则性和埃克纳方程
我们研究了在 $\R^m$ 中域边界距离的正则性增益。我们特别指出,如果有符号的距离函数恰好在边界点的邻域中仅可微分,那么它和边界必须是 $\mathcal C^{1,1}$ 正则的。反过来,我们研究边界正则性假设下距离函数的正则性。同时,我们还指出,在欧几里得空间的一个域中,eikonalequation 的任何解在任何地方都是可微的,它的梯度都是局部 Lipschitz 的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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