Ünyelioğlu, Konur AlpÖzgüler, Arif Bülent2016-02-082016-02-0819920020-7179http://hdl.handle.net/11693/26118Electrical and The decentralized stabilization problem of multivariable finite-dimensional systems is considered in a fractional set-up. A new synthesis procedure for decentralized stabilizing compensators is proposed. The class of all admissible local compensators that can be applied to a specified channel as an element of a decentralized compensator is identified. The conditions under which the class of admissible local compensators is generic are investigated. The problem of making a multi-channel system stabilizable and detectable from a single channel applying decentralized feedback around the other channels has been shown to be generically solvable for a given set of dynamic compensators if and only if the plant is strongly connected.EnglishCommunication channels (information theory)Control system synthesisLinear control systemsMultivariable control systemsStability criteriaSystem stabilityDecentralized compensatorDecentralized stabilization problem (DSP)Finite dimensional systemsGenerically solvableLocal compensatorsMulti channel systemFrequency stabilityDecentralized stabilization: characterization of all solutions and genericity aspectsArticle10.1080/002071792089342901366-5820