%0 Book Section %B Current Research in Nonlinear Analysis: In Honor of Haim Brezis and Louis Nirenberg %D 2018 %T Failure of the Chain Rule in the Non Steady Two-Dimensional Setting %A Stefano Bianchini %A Paolo Bonicatto %E Rassias, Themistocles M. %B Current Research in Nonlinear Analysis: In Honor of Haim Brezis and Louis Nirenberg %I Springer International Publishing %C Cham %P 33–60 %@ 978-3-319-89800-1 %G eng %U https://doi.org/10.1007/978-3-319-89800-1_2 %R 10.1007/978-3-319-89800-1_2 %0 Conference Paper %B Theory, Numerics and Applications of Hyperbolic Problems I %D 2018 %T On Uniqueness of Weak Solutions to Transport Equation with Non-smooth Velocity Field %A Paolo Bonicatto %E Klingenberg, Christian %E Westdickenberg, Michael %B Theory, Numerics and Applications of Hyperbolic Problems I %I Springer International Publishing %C Cham %P 191–203 %@ 978-3-319-91545-6 %G eng %U https://link.springer.com/chapter/10.1007/978-3-319-91545-6_15 %R 10.1007/978-3-319-91545-6_15 %0 Report %D 2017 %T A Lagrangian approach for scalar multi-d conservation laws %A Stefano Bianchini %A Paolo Bonicatto %A Elio Marconi %G en %U http://preprints.sissa.it/handle/1963/35290 %1 35596 %2 Mathematics %4 1 %$ Submitted by Maria Pia Calandra (calapia@sissa.it) on 2017-08-08T08:57:31Z No. of bitstreams: 1 main.pdf: 427188 bytes, checksum: 8ab383e6ab2a6dcbf06a22d007db5dda (MD5) %0 Journal Article %J Contemporary Mathematics. Fundamental Directions %D 2017 %T Lagrangian representations for linear and nonlinear transport %A Stefano Bianchini %A Paolo Bonicatto %A Elio Marconi %X
In this note we present a unifying approach for two classes of first order partial differential equations: we introduce the notion of Lagrangian representation in the settings of continuity equation and scalar conservation laws. This yields, on the one hand, the uniqueness of weak solutions to transport equation driven by a two dimensional BV nearly incompressible vector field. On the other hand, it is proved that the entropy dissipation measure for scalar conservation laws in one space dimension is concentrated on countably many Lipschitz curves.
%B Contemporary Mathematics. Fundamental Directions %I Peoples' Friendship University of Russia %V 63 %P 418–436 %G eng %U http://www.mathnet.ru/php/archive.phtml?wshow=paper&jrnid=cmfd&paperid=327&option_lang=eng %R 10.22363/2413-3639-2017-63-3-418-436 %0 Report %D 2017 %T A uniqueness result for the decomposition of vector fields in Rd %A Stefano Bianchini %A Paolo Bonicatto %XGiven a vector field $\rho (1,\b) \in L^1_\loc(\R^+\times \R^{d},\R^{d+1})$ such that $\dive_{t,x} (\rho (1,\b))$ is a measure, we consider the problem of uniqueness of the representation $\eta$ of $\rho (1,\b) \mathcal L^{d+1}$ as a superposition of characteristics $\gamma : (t^-_\gamma,t^+_\gamma) \to \R^d$, $\dot \gamma (t)= \b(t,\gamma(t))$. We give conditions in terms of a local structure of the representation $\eta$ on suitable sets in order to prove that there is a partition of $\R^{d+1}$ into disjoint trajectories $\wp_\a$, $\a \in \A$, such that the PDE \begin{equation*} \dive_{t,x} \big( u \rho (1,\b) \big) \in \mathcal M(\R^{d+1}), \qquad u \in L^\infty(\R^+\times \R^{d}), \end{equation*} can be disintegrated into a family of ODEs along $\wp_\a$ with measure r.h.s.. The decomposition $\wp_\a$ is essentially unique. We finally show that $\b \in L^1_t(\BV_x)_\loc$ satisfies this local structural assumption and this yields, in particular, the renormalization property for nearly incompressible $\BV$ vector fields.
%I SISSA %G en %U http://preprints.sissa.it/handle/1963/35274 %1 35581 %2 Mathematics %4 1 %$ Submitted by Maria Pia Calandra (calapia@sissa.it) on 2017-03-16T09:52:48Z No. of bitstreams: 1 WeakBressanConj-BB.pdf: 1581291 bytes, checksum: fd43c78bcd9ad0384df44d3fdccbe294 (MD5) %0 Journal Article %J SIAM Journal on Mathematical Analysis %D 2016 %T Renormalization for Autonomous Nearly Incompressible BV Vector Fields in Two Dimensions %A Stefano Bianchini %A Paolo Bonicatto %A N.A. Gusev %XGiven a bounded autonomous vector field $b \colon \mathbb{R}^d \to \mathbb{R}^d$, we study the uniqueness of bounded solutions to the initial value problem for the related transport equation \begin{equation*} \partial_t u + b \cdot \nabla u= 0. \end{equation*} We are interested in the case where $b$ is of class BV and it is nearly incompressible. Assuming that the ambient space has dimension $d=2$, we prove uniqueness of weak solutions to the transport equation. The starting point of the present work is the result which has been obtained in [7] (where the steady case is treated). Our proof is based on splitting the equation onto a suitable partition of the plane: this technique was introduced in [3], using the results on the structure of level sets of Lipschitz maps obtained in [1]. Furthermore, in order to construct the partition, we use Ambrosio's superposition principle [4].
%B SIAM Journal on Mathematical Analysis %V 48 %P 1-33 %G eng %U https://doi.org/10.1137/15M1007380 %R 10.1137/15M1007380