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CDC
2009
IEEE
2009
IEEE
Stability and stabilization of a class of ill-conditioned second order differential linear repetitive processes
: This paper considers differential linear repetitive processes which are a distinct class of 2D systems whose dynamics evolve over a subset of the upper right quadrant of the 2D plane. In particular, information propagation in one direction only occurs over a finite duration and is governed by a matrix differential linear equation. A stability theory exists for these processes but a problem arises in its application to second order processes due to the possible ill-conditioning of the leading coefficient matrix in the state-space model. Here we derive new results on stability analysis and control law design for this case by first transforming the second-order state-space model to an equivalent first-order descriptor system, thus avoiding the necessity of inverting a possibly ill-conditioned matrix. The results developed here can be computed using Linear Matrix Inequalities (LMIs).
Real-time TrafficCDC 2009 | Control Systems | Linear Matrix Inequalities | Linear Repetitive Processes | State-space Model |
| Added | 21 Jul 2010 |
| Updated | 21 Jul 2010 |
| Type | Conference |
| Year | 2009 |
| Where | CDC |
| Authors | Pawel Grzegorz Dabkowski, Krzysztof Galkowski, Eric Rogers |
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