Establishes quantitative Fredholm backstepping for operators of order >1 with explicit isomorphism and sharp estimates yielding rapid stabilization and small-time null controllability.
Stabilization and controllability of first-order integro-differential hyperbolic equations
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abstract
In the present article we study the stabilization of first-order linear integro-differential hyperbolic equations. For such equations we prove that the stabilization in finite time is equivalent to the exact controllability property. The proof relies on a Fredholm transformation that maps the original system into a finite-time stable target system. The controllability assumption is used to prove the invertibility of such a transformation. Finally, using the method of moments, we show in a particular case that the controllability is reduced to the criterion of Fattorini.
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math.OC 1years
2026 1verdicts
UNVERDICTED 1representative citing papers
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Quantitative Fredholm backstepping and rapid stabilization
Establishes quantitative Fredholm backstepping for operators of order >1 with explicit isomorphism and sharp estimates yielding rapid stabilization and small-time null controllability.