Add to ORKGIn the sequel to [A. Ilchmann and V. Mehrmann, SIAM J. Control Optim., 44 (2005), pp. 1725–1747], we discuss a behavioral approach for linear, time-varying, differential algebraic (descriptor) systems with real analytic coefficients. The analysis is "almost global" in the sense that the analysis is not restricted to an interval I ⊂ R but is allowed for the "time axis" R \ T, where T is a discrete set of critical points, at which the solution may exhibit a finite escape time. Controllable, observable, and autonomous behavior for linear time-varying descriptor systems is characterized
We develop a behavioral approach to linear, time-varying, differential-algebraic systems. The analysi...
The development of the algebraic theory of time-varying linear systems is described. The class of sy...
The development of the algebraic theory of time-varying linear systems is described. The class of sy...
In the sequel to [A. Ilchmann and V. Mehrmann, SIAM J. Control Optim., 44 (2005), pp. 1725–1747], we...
In the sequel to [A. Ilchmann and V. Mehrmann, SIAM J. Control Optim., 44 (2005), pp. 1725–1747], we...
We introduce a behavioural approach to linear, time-varying, differential algebraic (descriptor) sys...
We introduce a behavioural approach to linear, time-varying, differential algebraic (descriptor) sys...
We introduce a behavioural approach to linear, time-varying, differential algebraic (descriptor) sys...
Abstract. In the sequel to [12], we discuss behavioural approach for linear, time-varying, different...
We develop a behavioural approach to linear, time-varying, differential algebraic systems. The analy...
We develop a behavioural approach to linear, time-varying, differential algebraic systems. The analy...
We develop a behavioural approach to linear, time-varying, differential algebraic systems. The analy...
We develop a behavioural approach to linear, time-varying, differential algebraic systems. The analy...
We develop a behavioral approach to linear, time-varying, differential-algebraic systems. The analysi...
We develop a behavioral approach to linear, time-varying, differential-algebraic systems. The analysi...
We develop a behavioral approach to linear, time-varying, differential-algebraic systems. The analysi...
The development of the algebraic theory of time-varying linear systems is described. The class of sy...
The development of the algebraic theory of time-varying linear systems is described. The class of sy...
In the sequel to [A. Ilchmann and V. Mehrmann, SIAM J. Control Optim., 44 (2005), pp. 1725–1747], we...
In the sequel to [A. Ilchmann and V. Mehrmann, SIAM J. Control Optim., 44 (2005), pp. 1725–1747], we...
We introduce a behavioural approach to linear, time-varying, differential algebraic (descriptor) sys...
We introduce a behavioural approach to linear, time-varying, differential algebraic (descriptor) sys...
We introduce a behavioural approach to linear, time-varying, differential algebraic (descriptor) sys...
Abstract. In the sequel to [12], we discuss behavioural approach for linear, time-varying, different...
We develop a behavioural approach to linear, time-varying, differential algebraic systems. The analy...
We develop a behavioural approach to linear, time-varying, differential algebraic systems. The analy...
We develop a behavioural approach to linear, time-varying, differential algebraic systems. The analy...
We develop a behavioural approach to linear, time-varying, differential algebraic systems. The analy...
We develop a behavioral approach to linear, time-varying, differential-algebraic systems. The analysi...
We develop a behavioral approach to linear, time-varying, differential-algebraic systems. The analysi...
We develop a behavioral approach to linear, time-varying, differential-algebraic systems. The analysi...
The development of the algebraic theory of time-varying linear systems is described. The class of sy...
The development of the algebraic theory of time-varying linear systems is described. The class of sy...