Algebraic Design of Multi-rate Control Systems for Environments with Limited Random Delays

Nowadays, in industrial control applications, is rather usual to sample and update different variables at different rates, although it is common to consider all these activities equally and regularly spaced on time. These applications can be found, for example, on real-time operating systems by decomposing them into several tasks in such a way that pre-emption and blocking may appear due to task priorities and resource sharing, or in networked control systems, where due to the existence of large distances and space limitations, several devices (controller, process and others) share a common communication bus. In both cases, these facts could imply the presence of limited random delays, leading to a non-regular non-periodic behavior and, as a result, the control performance can be degraded. In order to undertake this problem, a solution based on a modeling methodology for non-uniform sampled-data systems can be utilized. This technique permits the consideration of any cyclic sampling pattern. However, it can be adapted to deal with limited random delays, and later on, a multi-rate controller based on this model can be designed. In this way, if the considered non-conventional control system is implemented, a clear performance improvement can be observed

[1]  K. Poolla,et al.  Robust control of linear time-invariant plants using periodic compensation , 1985 .

[2]  Tongwen Chen,et al.  Dual-rate adaptive control of one-input/two-outputs systems and its application to a cart-crane system , 2005 .

[3]  P. Albertos,et al.  An external representation based modelling for non conventional sampled-data systems , 2004, Proceedings World Automation Congress, 2004..

[4]  Julián Salt,et al.  Model-based multirate controllers design , 2005, IEEE Transactions on Control Systems Technology.

[5]  R. Kálmán,et al.  A unified approach to the theory of sampling systems , 1959 .

[6]  Julián Salt,et al.  Multirate control implementation for an integrated communication and control system , 2003 .

[7]  P. Albertos,et al.  Algebraic design for non-conventional sampled-data systems , 2004, Proceedings World Automation Congress, 2004..

[8]  Sauro Longhi,et al.  Structural properties of multirate sampled-data systems , 1994, IEEE Trans. Autom. Control..

[9]  D. Meyer A new class of shift-varying operators, their shift-invariant equivalents, and multirate digital systems , 1990 .

[10]  B. Francis,et al.  A lifting technique for linear periodic systems with applications to sampled-data control , 1991 .

[11]  N. P. Lutte,et al.  z-transform analysis of nonuniformly sampled digital filters , 1972 .

[12]  G. Kranc,et al.  Input-output analysis of multirate feedback systems , 1957 .

[13]  D. Glasson,et al.  Development and applications of multirate digital control , 1983, IEEE Control Systems Magazine.

[14]  P. Albertos,et al.  RT control scheduling to reduce control performance degrading , 2000, Proceedings of the 39th IEEE Conference on Decision and Control (Cat. No.00CH37187).