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Networks and Heterogeneous Media

2009, Volume 4, Issue 2: 249-266. doi: 10.3934/nhm.2009.4.249
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A Hamiltonian perspective to the stabilization of systems of two conservation laws

  • 1.
    LAGEP, Université de Lyon, Lyon, F-69003
  • 2.
    FEMTO-ST/AS2M, ENSMM Besan¸con, 24 rue Alain Savary, 25 000 Besanon
  • Received: 01 September 2008 Revised: 01 February 2009

  • Primary: 58F15, 58F17; Secondary: 53C35.

  • This paper aims at providing some synthesis between two alternative representations of systems of two conservation laws and interpret different conditions on stabilizing boundary control laws. The first one, based on the invariance of its coordinates, is the representation in Riemann coordinates which has been applied successfully for the stabilization of linear and non-linear hyperbolic systems of conservation laws. The second representation is based on physical modelling and leads to port Hamiltonian systems which are extensions of infinite-dimensional Hamiltonian systems defined on Dirac structure encompassing pairs of conjugated boundary variables. In a first instance the port Hamiltonian formulation is recalled with respect to a canonical Stokes-Dirac structure and then derived in Riemann coordinates. In a second instance the conditions on the boundary feedback relations derived with respect to the Riemann invariants are expressed in terms of the port boundary variable of the Hamiltonian formulation and interpreted in terms of the dissipation inequality of the Hamiltonian functional. The p-system and the Saint-Venant equations arising in models of irrigation channels are the illustrating examples developed through the paper.

    Citation: Valérie Dos Santos, Bernhard Maschke, Yann Le Gorrec. A Hamiltonian perspective to thestabilization of systems of two conservation laws[J]. Networks and Heterogeneous Media, 2009, 4(2): 249-266. doi: 10.3934/nhm.2009.4.249

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  • This paper aims at providing some synthesis between two alternative representations of systems of two conservation laws and interpret different conditions on stabilizing boundary control laws. The first one, based on the invariance of its coordinates, is the representation in Riemann coordinates which has been applied successfully for the stabilization of linear and non-linear hyperbolic systems of conservation laws. The second representation is based on physical modelling and leads to port Hamiltonian systems which are extensions of infinite-dimensional Hamiltonian systems defined on Dirac structure encompassing pairs of conjugated boundary variables. In a first instance the port Hamiltonian formulation is recalled with respect to a canonical Stokes-Dirac structure and then derived in Riemann coordinates. In a second instance the conditions on the boundary feedback relations derived with respect to the Riemann invariants are expressed in terms of the port boundary variable of the Hamiltonian formulation and interpreted in terms of the dissipation inequality of the Hamiltonian functional. The p-system and the Saint-Venant equations arising in models of irrigation channels are the illustrating examples developed through the paper.


  • This article has been cited by:

    1. Jean-Michel Coron, Georges Bastin, Dissipative Boundary Conditions for One-Dimensional Quasi-linear Hyperbolic Systems: Lyapunov Stability for the C1-Norm, 2015, 53, 0363-0129, 1464, 10.1137/14097080X
    2. H. Bansal, P. Schulze, M.H. Abbasi, H. Zwart, L. Iapichino, W.H.A. Schilders, N. van de Wouw, Port-Hamiltonian formulation of two-phase flow models, 2021, 149, 01676911, 104881, 10.1016/j.sysconle.2021.104881
    3. B. Maschke, A.J. van der Schaft, On alternative Poisson brackets for fluid dynamical systems and their extension to Stokes-Dirac structures, 2013, 46, 14746670, 109, 10.3182/20130925-3-FR-4043.00083
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  • © 2009 the Author(s), licensee AIMS Press. This is an open access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0)
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