Uniqueness and continuous dependence for systems of balance laws with dissipation

“…To obtain our results we exploit the techniques in [2,9], essentially based on the fractional step algorithm, see [9,10,13,23]. Its core idea is to get a solution of the original equation as a limit of approximations obtained suitably merging S and Σ.…”

Section: Introductionmentioning

confidence: 99%

Hyperbolic Balance Laws with a Non Local Source

Colombo

Guerra

2007

Communications in Partial Differential Equations

Self Cite

View full text Add to dashboard Cite

show abstract

“…It is well known that this dissipativity condition allows to prove the well posedness globally in time of the Cauchy problem for (1.1)-(1.2) in the case Q = 0 and g: R n → R n , see [2,14]. Similar global results can be obtained by means of suitable L 1 estimates for relevant classes of systems, see [13].…”

Section: Introduction and Main Resultsmentioning

confidence: 65%

“…It is known, see [11,Theorem 2.1], that for small times equation (1.1) generates a Lipschitz semigroup. When the source term is dissipative, the existence of solutions can be proved for all times, see [13,14] as well as the continuous dependence, see [2,8]. These papers all deal with local sources.…”

Section: Introduction and Main Resultsmentioning

confidence: 99%

Hyperbolic balance laws with a dissipative non local source

Colombo¹,

Guerra²

2008

Communications on Pure &Amp; Applied Analysis

Self Cite

View full text Add to dashboard Cite

show abstract

“…Even in the general case of systems which are neither genuinely nonlinear nor linearly degenerate, global solutions have been constructed by the Glimm scheme [18,21,23,27], by front tracking approximations [4,5], and by vanishing viscosity approximations [7]. In some special cases, existence and uniqueness of global solutions in the presence of a source term were proved in [16,22,12] and in [2,15,1,13,14], respectively.…”

Section: Introduction and Main Resultsmentioning

confidence: 99%

Global Existence of Large BV Solutions in a Model of Granular Flow

Amadori

Shen

2009

Communications in Partial Differential Equations

Self Cite

View full text Add to dashboard Cite

In this paper we analyze a set of equations proposed by Hadeler and Kuttler [20], describing the flow of granular matter in terms of the heights of a standing layer and of a moving layer. By a suitable change of variables, the system can be written as a 2 × 2 hyperbolic system of balance laws, which we study in the one-dimensional case. The system is linearly degenerate along two straight lines in the phase plane, and therefore is weakly linearly degenerate at the point of the intersection. The source term is quadratic, consisting of product of two quantities, which are transported with strictly different speeds. Assuming that the initial height of the moving layer is sufficiently small, we prove the global existence of entropy-weak solutions to the Cauchy problem, for a class of initial data with bounded but possibly large total variation.

show abstract

Uniqueness and continuous dependence for systems of balance laws with dissipation

Cited by 50 publications

References 11 publications

Hyperbolic Balance Laws with a Non Local Source

Hyperbolic Balance Laws with a Non Local Source

Hyperbolic balance laws with a dissipative non local source

Global Existence of Large BV Solutions in a Model of Granular Flow

Contact Info

Product

Resources

About