@article{KYB_1984_20_6_a5,
author = {Lunze, Jan},
title = {A procedure for designing stabilizing output feedback controllers},
journal = {Kybernetika},
pages = {483--495},
year = {1984},
volume = {20},
number = {6},
mrnumber = {777981},
zbl = {0573.93046},
language = {en},
url = {http://geodesic.mathdoc.fr/item/KYB_1984_20_6_a5/}
}
Lunze, Jan. A procedure for designing stabilizing output feedback controllers. Kybernetika, Tome 20 (1984) no. 6, pp. 483-495. http://geodesic.mathdoc.fr/item/KYB_1984_20_6_a5/
[1] J. Casti: Necessary and sufficient conditions in the minimal control field problem for linear systems. Internat. J. System Sci. 7 (1976), 5, 493 - 500. | MR | Zbl
[2] R. Chen: On the problem of direct output feedback stabilization. 3-rd Internat. Symposium on Mathematical Theory of Network and Systems, Delft 1979, 412-414. | Zbl
[3] E. J. Davison, S. H. Wang: On pole assignment in linear multivariable systems using output feedback. IEEE Trans. Automat. Control AC-20 (1975), 4, 516-518. | MR | Zbl
[4] E. J. Davison: Output detectability, steady-state invertability and the general servomechanism problem. IEEE Conf. Decision Control 1976, 1250-1257. | MR
[5] E. J. Davison: The robust control of a servonnchanism problem for linear time-invariant multivariable systems. IEEE Trans. Automat. Control. AC-21 (1976), 1, 25-34. | MR
[6] E. J. Davison: Multivariable tuning regulators: the feedforward and robust control of a general servomechanism problem. IEEE Trans. Automat. Control AC-21 (1976), 1, 35-47. | MR | Zbl
[7] M. L. J. Hautus: Controllability and observability conditions of linear autonomous systems. Indagationes Mathematicae 31 (1969), 443-448. | MR | Zbl
[8] P. T. Kabamba, R. W. Longman: Exact pole assignment using direct or dynamic output feedback. IEEE Trans. Automat. Control AC-27 (1982), 6, 1244-1246. | MR | Zbl
[9] U. Kornand H.-H. Wilfert: Mehrgrößenregelungen. Verlag Technik, Berlin 1982.
[10] M. T. Li: On output feedback stabilizability of linear systems. IEEE Trans. Automat. Control AC-17 (1972), 3, 408-410. | Zbl
[11] D. G. Luenberger: Canonical forms for linear multivariable systems. IEEE Trans. Automat. Control AC-12 (1967), 3, 290-293. | MR
[12] J. Lunze: Determination of stabilizing output feedback matrices to initiate optimal control procedures. Elektron. Informationsverarb. Kybernetik 19 (1983), 3, 137-151. | MR | Zbl
[13] K. Martin: Zur Stabilisierung von Systemen mit I-Anteilen dutch Ausgangsrückführung. Messen Steuern Regeln 25 (1982), 12, 662-666.
[14] S. Momen: Structural Controllability and Stabilization of Decentralized Systems. Ph.D. Thesis, University of London 1982.
[15] A. S. Morse W. A. Wolovich, B. D. O. Anderson: Generic pole assignment: preliminary results. IEEE Conf. Decision Control, San Diego 1981, 105-109.
[16] R. V. Patel, N. Munro: Multivariable System Theory and Design. Pergamon Press, Oxford 1982. | MR | Zbl
[17] J. Pescusse: A new sufficient condition for output stabilizability of linear systems. IEEE Trans. Automat. Control AC-27 (1982), 1, 198-199. | MR
[18] K. Ramar, V. Gourishankar: Algorithm for closed-loop pole assignment with constant-gain output feedback. Proc. Inst. Electr. Engrs. 122 (1975), 5, 574-575.
[19] K. Reinschke: Graph-theoretic characterization of fixed modes in centralized and decentralized control. Internat. J. Control 39 (1984), 4, 715-729. | MR | Zbl
[20] H. Seraji: Stabilization and pole placement using output feedback. Internat. J. Control 23 (1976), 1, 105-112, and 24 (1976), 3, 443. | MR | Zbl
[21] M. Tarokh: Necessary conditions for stabilization and pole placement with output feedback. Electron. Letters 13 (1977), 5, 148-149.
[22] M. Tarokh: On output feedback stabilization and pole assignment. Internat. J. Control 31 (1980), 2, 399-408. | MR | Zbl
[23] R. Zurmühl: Matrizen und ihre Anwendungen. Springer-Verlag, Berlin 1964. | MR