This Note is concerned with stabilization of hyperbolic systems by a distributed memory feedback. We present here a general method which gives energy decay rates in terms of the asymptotic behavior of the kernel at infinity. This method, which allows us to recover in a natural way the known cases (exponential, polynomial, . . . ), applies to a large quasi-optimal class of kernels. It also provides sharp energy decay rates compared to the ones that are available in the literature. We give a general condition under which the energy of solutions is shown to decay at least as fast as the kernel at infinity.
ALABAU BOUSSOUIRA, F., Cannarsa, P. (2009). A general method for proving sharp energy decay rates for memory-dissipative evolution equations. COMPTES RENDUS MATHÉMATIQUE, 347, 867-872.
A general method for proving sharp energy decay rates for memory-dissipative evolution equations
CANNARSA, PIERMARCO
2009-01-01
Abstract
This Note is concerned with stabilization of hyperbolic systems by a distributed memory feedback. We present here a general method which gives energy decay rates in terms of the asymptotic behavior of the kernel at infinity. This method, which allows us to recover in a natural way the known cases (exponential, polynomial, . . . ), applies to a large quasi-optimal class of kernels. It also provides sharp energy decay rates compared to the ones that are available in the literature. We give a general condition under which the energy of solutions is shown to decay at least as fast as the kernel at infinity.| File | Dimensione | Formato | |
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