Morgül, Ö.2016-02-082016-02-0820010018-9286http://hdl.handle.net/11693/24781We consider a system described by the Euler-Bernoulli beam equation. For stabilization, we propose a dynamic boundary controller applied at the free end of the system. The transfer function of the controller is a marginally stable positive real function which may contain poles on the imaginary axis. We then give various asymptotical and exponential stability results. We also consider the disturbance rejection problem.EnglishBoundary control systemsDistributed parameter systemsDisturbance rejectionFlexible structuresSemigroup theoryStabilityAsymptotic stabilityFlexible structuresPartial differential equationsTransfer functionsBeam equationsDistributed parameter control systemsStabilization and disturbance rejection for the beam equationArticle10.1109/9.975475