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The problem of pole assignment by state feedback in the class of non-square linear systems is considered in the paper. It is shown that the problem is solvable under the assumption of weak regularizability, a newly introduced concept that can be viewed as a generalization of the regularizability of square systems. Necessary conditions of solvability for the problem of pole assignment are established. It is also shown that sufficient conditions can be derived in some special cases. Some conclusions...
We consider the row-by-row decoupling problem for linear delay systems and show some close connections between the design of a decoupling controller and some particular structures of delay systems, namely the so-called weak structure at infinity. The realization by static state feedback of decoupling precompensators is studied, in particular, generalized state feedback laws which may incorporate derivatives of the delayed new reference.
We study a class of hyperbolic partial differential equations on a
one dimensional spatial domain with control and observation at the
boundary. Using the idea of feedback we show these systems are
well-posed in the sense of Weiss and Salamon if and only if the
state operator generates a C0-semigroup. Furthermore, we show
that the corresponding transfer function is regular, i.e., has a
limit for s going to infinity.
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