On the regulator problem for linear systems over rings and algebras

On the regulator problem for linear systems over rings and algebras

The regulator problem is solvable for a linear dynamical system Σ\Sigma if and only if Σ\Sigma is both pole assignable and state estimable. In this case, Σ\Sigma is a canonical system (i.e., reachable and observable). When the ring RR is a field or a Noetherian total ring of fractions the convers...

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Bibliographic Details
Main Authors: Hermida-Alonso José Ángel, Carriegos Miguel V., Sáez-Schwedt Andrés, Sánchez-Giralda Tomás
Format: article
Language:EN
Published: De Gruyter 2021
Subjects:
linear systems over commutative rings
regulator problem
duality principle
pole assignment
13p25
93b25
Mathematics
QA1-939
Online Access:https://doaj.org/article/5b7ccb2f50494b9ba7f129c40bc4d0db
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Summary:The regulator problem is solvable for a linear dynamical system Σ\Sigma if and only if Σ\Sigma is both pole assignable and state estimable. In this case, Σ\Sigma is a canonical system (i.e., reachable and observable). When the ring RR is a field or a Noetherian total ring of fractions the converse is true. Commutative rings which have the property that the regulator problem is solvable for every canonical system (RP-rings) are characterized as the class of rings where every observable system is state estimable (SE-rings), and this class is shown to be equal to the class of rings where every reachable system is pole-assignable (PA-rings) and the dual of a canonical system is also canonical (DP-rings).

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