Herglotz' variational principle and Lax-Oleinik evolution

· 2019 · math.AP · arXiv 1907.05769

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We develop an elementary method to give a Lipschitz estimate for the minimizers in the problem of Herglotz' variational principle proposed in \cite{CCWY2018} in the time-dependent case. We deduce Erdmann's condition and the Euler-Lagrange equation separately under different sets of assumptions, by using a generalized du Bois-Reymond lemma. As an application, we obtain a representation formula for the viscosity solution of the Cauchy problem for the Hamilton-Jacobi equation \begin{align*} D_tu(t,x)+H(t,x,D_xu(t,x),u(t,x))=0 \end{align*} and study the related Lax-Oleinik evolution.

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Representation formulas for contact type Hamilton-Jacobi equations

math.AP · 2019-07-17 · unverdicted · novelty 3.0

Representation formulas for viscosity solutions of contact-type Hamilton-Jacobi equations are obtained using the Herglotz variational principle.

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Representation formulas for contact type Hamilton-Jacobi equations math.AP · 2019-07-17 · unverdicted · none · ref 6 · internal anchor
Representation formulas for viscosity solutions of contact-type Hamilton-Jacobi equations are obtained using the Herglotz variational principle.

Herglotz' variational principle and Lax-Oleinik evolution

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