The objective of the article is to obtain general conditions for several types of controllability at once for an abstract differential equation of arbitrary order, instead of conditions for a fixed order equation. This innovative approach was possible owing to analyzing the n-th order linear system in the Frobenius form which generates a Jordan transition matrix of the Vandermonde form. We extensively used the fact that the knowledge of the inverse of a Jordan transition matrix enables us to directly verify the controllability by Chen's theorem. We used the explicit analytical form of the inverse Vandermonde matrix. This enabled us to obtain more general conditions for different types of controllability for infinite dimensional systems than the conditions existing in the literature so far. The methods introduced can be easily adapted to the analysis of other dynamic properties of the systems considered.
@article{bwmeta1.element.bwnjournal-article-amcv18i2p199bwm, author = {Jerzy Stefan Respondek}, title = {Approximate controllability of infinite dimensional systems of the n-th order}, journal = {International Journal of Applied Mathematics and Computer Science}, volume = {18}, year = {2008}, pages = {199-212}, zbl = {1234.93019}, language = {en}, url = {http://dml.mathdoc.fr/item/bwmeta1.element.bwnjournal-article-amcv18i2p199bwm} }
Jerzy Stefan Respondek. Approximate controllability of infinite dimensional systems of the n-th order. International Journal of Applied Mathematics and Computer Science, Tome 18 (2008) pp. 199-212. http://gdmltest.u-ga.fr/item/bwmeta1.element.bwnjournal-article-amcv18i2p199bwm/
[000] Alotaibi S., M. Sen, B. Goodwine and K.T. Yang (2004). Controllability of cross-flow heat exchangers, International Journal of Heat and Mass Transfer 47: 913-924. | Zbl 1083.76021
[001] Bellman R. (1960). Introduction to Matrix Analysis, McGrawHill, New York . | Zbl 0124.01001
[002] Balakrishnan A.V. (1998). Dynamics and Control of Distributed Systems, Cambridge University Press, Cambridge, pp. 121-201.
[003] Brammer R. F. (1972). Controllability in linear autonomous systems with positive controllers, SIAM Journal on Control and Optimization 10: 339-353. | Zbl 0242.93007
[004] Butkowskij A. G. (1979). Characteristics of Distributed Parameter Systems, Nauka, Moscow, (in Russian).
[005] Chen C.T. (1970). Introduction to Linear System Theory, Holt, Rinehart and Winston Inc, New York.
[006] Chen G. and D.L. Russel (1982). A mathematical model for linear elastic systems with structural damping, Quarterly of Applied Mathematics 39: 433-454. | Zbl 0515.73033
[007] Chen G. and R. Triaggani (1990). Gevrey class semigroup arising from elastic systems with gentle dissipation: The case 0 < α < 1/2, Proceedings of the American Mathematical Society 100(2): 401-415.
[008] Coleman M.P. and H. Wang (1993). Analysis of vibration spectrum of a Timoshenko beam with boundary damping by the wave method, Wave Motion 17: 223-239. | Zbl 0776.73036
[009] Curtain R. and H. Zwart (1995). An Introduction to InfiniteDimensional Systems Theory, Springer-Verlag, New York. | Zbl 0839.93001
[010] Davison E.J. and S.H. Wang (1975). New results on the controllability and observability of general composite systems, IEEE Transactions on Automatic Control 20: 123-128. | Zbl 0309.93005
[011] Dunford N. and J. Schwartz (1963). Linear Operators. Vols. 1 and 2, Interscience, New York. | Zbl 0128.34803
[012] Fattorini H.O. (1966). Some remarks on complete controllability, SIAM Journal on Control and Optimization 4: 686-694. | Zbl 0168.34906
[013] Fattorini H.O. (1967). On complete controllability of linear systems, Journal of Differential Equations 3: 391-402. | Zbl 0155.15903
[014] Fattorini H.O. and Russel D.L. (1971). Exact controllability theorem for linear parabolic equations in one space dimension, Archive for Rational Mechanics and Analysis 43: 272-292. | Zbl 0231.93003
[015] Górecki H. (1986). Optimization of Dynamic Systems, WNT, Warsaw (in Polish).
[016] Huang F. (1988). On the mathematical model with analytic damping, SIAM Journal on Control Optimization 26(3): 714-724. | Zbl 0644.93048
[017] Ito K. and N. Kunimatsu (1988). Stabilization of non-linear distribuded parameter vibratory system, International Journal of Control 48:(2) 2389-2415. | Zbl 0663.93053
[018] Ito K. and N. Kunimatsu (1991). Semigroup model of structurally damped Timoshenko beam with boundary input, International Journal of Control 54: 367-391. | Zbl 0735.35112
[019] Kalman R.E. (1960). On the general theory of control systems, Proceedings of the 1st IFAC Congress, London, pp. 481-493.
[020] Kim J.U. and Y. Renardy (1987). Boundary control of the Timoshenko beam, SIAM Journal on Control and Optimization 25: 1417-1429. | Zbl 0632.93057
[021] Kaczorek T. (1998). Vectors and Matrices in Automatic Control and Electrical Engineering, WNT Warsaw (in Polish).
[022] Klamka J. (2000). Schauder's fixed point theorem in nonlinear controllability problems, Control Cybernetics 29: 1377-1393. | Zbl 1011.93001
[023] Klamka J. (2002). Constrained exact controllability of semilinear systems, Systems and Control Letters 47(2): 139-147. | Zbl 1003.93005
[024] Klamka J. (1992). Approximate controllability of second order dynamical systems, Applied Mathematics and Computer Sciences 2: 135-148. | Zbl 0762.93006
[025] Klamka J. (1991). Controllability of Dynamical Systems, Kluwer, Dordrecht. | Zbl 0732.93008
[026] Klamka J. (1976). Controllability of linear systems with timevariable delays in control, International Journal of Control 24: 869-878. | Zbl 0342.93006
[027] Klamka J. (1977). Absolute controllability of linear systems with time-variable delays in control, International Journal of Control 26: 57-63. | Zbl 0359.93005
[028] Labbe S. and E. Trelat (2006). Uniform controllability of semidiscrete approximations of parabolic control systems, Systems and Control Letters 55 (7): 597-609. | Zbl 1129.93324
[029] Mahmudov N.I. and S. Zorlu (2005). Controllability of semilinear stochastic systems, International Journal of Control 78(13): 997-1004. | Zbl 1097.93034
[030] Miller L. (2006). Non-structural controllability of linear elastic systems with structural damping, Journal of Functional Analysis 236(2): 592-608. | Zbl 1105.93014
[031] Respondek J. (2005a). Controllability of dynamical systems with constraints, Systems and Control Letters 54(4): 293-314. | Zbl 1129.93326
[032] Respondek J. (2005b). Numerical approach to the non-linear diofantic equations with applications to the controllability of infinite dimensional dynamical systems, International Journal of Control 78(13/10): 1017-1030. | Zbl 1108.93021
[033] Respondek J. (2007). Numerical analysis of controllability of diffusive-convective system with limited manipulating variables, International Communications in Heat and Mass Transfer 34(8): 934-944.
[034] Sakawa Y. (1974). Controllability for partial differential equations of parabolic type, SIAM Journal on Control and Optimization 12: 389-400. | Zbl 0289.93010
[035] Sakawa Y. (1984). Feedback control of second order evolution equations with damping, SIAM Journal Control and Optimization 22: 343-361. | Zbl 0551.58010
[036] Sakawa Y. (1983). Feedback stabilization of linear diffusion system, SIAM Journal on Control an Optimization 21(5): 667-675. | Zbl 0527.93050
[037] Shi D.H., S.H. Hou and D. Feng (1998). Feedback stabilization of a Timoshenko beam with an end mass, International Journal of Control 69(2): 285-300. | Zbl 0943.93051
[038] Shi D.H., D. Feng and Q. Yan (2001). Feedback stabilization of rotating Timoshenko beam with adaptive gain, International Journal of Control 74(3): 239-251. | Zbl 1034.93032
[039] Shubov M.A. (1999). Spectral operators generated by Timoshenko beam model, Systems and Control Letters 38: 249-258. | Zbl 0985.93012
[040] Shubov M.A. (2000). Exact controllability of damped Timoshenko beam, IMA Journal of Mathematical Control and Information 17: 375-395. | Zbl 0991.93016
[041] Schmitendorf W.E. and B.R. Barmish (1980). Null controllability of linear system with constrained controls, SIAM Journal on Control and Optimization 18: 327-345. | Zbl 0457.93012
[042] Tanabe H. (1979). Equations of Evolution, Pitman, London. | Zbl 0417.35003
[043] Triggiani R. (1975). Controllability and observability in Banach space with bounded operators, SIAM Journal on Control and Optimization 13: 462-491.
[044] Triggiani R. (1976). Extensions of rank conditions for controllability and observability to Banach spaces with unbounded operators, SIAM Journal on Control and Optimization 14: 313-338. | Zbl 0326.93003
[045] Triggiani R. (1978). On the relationship between first and second order controllable systems in Banach spaces, SIAM Journal Control and Optimization 16: 847-859. | Zbl 0395.93012
[046] Vieru A. (2005). On null controllability of linear systems in Banach spaces, Systems and Control Letters 54(4): 331-337. | Zbl 1129.93329
[047] Xu G.Q. (2005). Boundary feedback exponential stabilization of a Timoshenko beam with both ends free, International Journal of Control 78(4/10): 286-297. | Zbl 1076.93024