2022
DOI: 10.1007/s00498-022-00319-0
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Delayed stabilization of the Korteweg–de Vries equation on a star-shaped network

Abstract: In this work we deal with the exponential stability of the nonlinear Kortewegde Vries (KdV) equation on a finite star-shaped network in the presence of delayed internal feedback. We start by proving the well-posedness of the system and some regularity results. Then we state an exponential stabilization result using a Lyapunov function by imposing small initial data and a restriction over the lengths. In this part also, we are able to obtain an explicit expression for the rate of decay. Then we prove the expone… Show more

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Cited by 11 publications
(17 citation statements)
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“…The aim of this section is to illustrate the stability results obtained in this work with some numerical simulations that adapt the schemes used in [2,4,19]. We choose a final time T and build a uniform spatial and time discretization of N x + 1 and N t + 1 points, respectively, separated by the steps ∆x = L/N x and ∆t = T /N t .…”
Section: Numerical Simulations and Conclusionmentioning
confidence: 99%
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“…The aim of this section is to illustrate the stability results obtained in this work with some numerical simulations that adapt the schemes used in [2,4,19]. We choose a final time T and build a uniform spatial and time discretization of N x + 1 and N t + 1 points, respectively, separated by the steps ∆x = L/N x and ∆t = T /N t .…”
Section: Numerical Simulations and Conclusionmentioning
confidence: 99%
“…We present now the numerical scheme in the case of boundary delay. The internal case follows similar ideas, (see [19] for a similar scheme in the case of constant delay in a network). We choose the delay step ∆ρ = 1/N ρ .…”
Section: Numerical Simulations and Conclusionmentioning
confidence: 99%
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“…With respect to the KdV equation on networks, we can mention the work [8] where well-posedness of the KdV equation on a star metric graph was studied. In the works [1,10], stabilization and controllability problems were studied, for the KdV equation on a star-shaped network, and recently the problem of stabilization using internal delay was addressed in [16].…”
mentioning
confidence: 99%
“…With respect to saturated control in infinite-dimensional systems, we can refer to [19] where a wave equation with distributed and boundary saturated feedback law was studied, [14] where the saturated internal stabilization of a single KdV equation was studied and recently [15] where a saturated feedback control law was derived for a linear reaction-diffusion equation. Our idea closely follows works [14] and [16] to prove the stability of the KdV equation in a star-shaped network with saturated internal control. In this work, we consider a saturation map \fraks \fraka \frakt that could be any of the following cases:…”
mentioning
confidence: 99%