1983
DOI: 10.2514/3.19833
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A comparison of control techniques for large flexible systems

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Cited by 218 publications
(74 citation statements)
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“…Адаптируя уравнения углового движения КА с КНЭК, полученные в работе [5], под сформулированную в пункте 1.1 задачу, получаем уравнения движения макета на столе Отправной точкой при разработке закона управления   t u в задачах гашения вибраций в нежестком элементе конструкции является построение линейно-квадратичного гауссового регулятора (LQG регулятора) (см. [6], [7]), которое происходит в два этапа: …”
Section: рис 1 схема расположения вентиляторовunclassified
“…Адаптируя уравнения углового движения КА с КНЭК, полученные в работе [5], под сформулированную в пункте 1.1 задачу, получаем уравнения движения макета на столе Отправной точкой при разработке закона управления   t u в задачах гашения вибраций в нежестком элементе конструкции является построение линейно-квадратичного гауссового регулятора (LQG регулятора) (см. [6], [7]), которое происходит в два этапа: …”
Section: рис 1 схема расположения вентиляторовunclassified
“…It has been shown, however, that a small amount of damping greatly reduces the possibility of instability due to spillover. 22 The spillover problem will not be addressed in this paper. where the function GðQ, PÞ ¼ e ÀikR =4R is the free-space Green's function in which R ¼ Q À P , Q is any point on S, and P maybe outside, inside, or on S; k ¼ !=c is the wavenumber, where c is the speed of sound and n is the outward unit normal on S. The coefficient C(P) can be calculated by…”
Section: Conventional Feedback Control For Pole Assignmentmentioning
confidence: 99%
“…Inspite of several attempts by numerical linear algebra researchers, effective numerical model reduction techniques that work exclusively in secondorder model are rare. Similarly, the state-of-the-art independent modal space control (IMSC) approach (see Inman [23]), Meirovitch et al [27,28], also is not practical for the large and sparse PQEVAP. For open-loop decoupling, the IMSC approach needs the knowledge of the complete spectrum and eigenvectors of PðlÞ, and for closed-loop decoupling, a stringent requirement of the number of sensors and actuators must be met [23,28].…”
Section: Q2mentioning
confidence: 99%
“…Similarly, the state-of-the-art independent modal space control (IMSC) approach (see Inman [23]), Meirovitch et al [27,28], also is not practical for the large and sparse PQEVAP. For open-loop decoupling, the IMSC approach needs the knowledge of the complete spectrum and eigenvectors of PðlÞ, and for closed-loop decoupling, a stringent requirement of the number of sensors and actuators must be met [23,28]. On the other hand, the state-of-the-art computational technique, the Jacobi-Davidson method (see Datta [10] and Tisseur and Meerbergen [38]) for the quadratic eigenproblem, is capable of computing only a few extremal eigenvalues and eigenvectors of a large quadratic pencil.…”
Section: Q2mentioning
confidence: 99%