Title of article
When is the discretization of a spatially distributed system good enough for control?
Author/Authors
Jones، نويسنده , , Bryn Ll. and Kerrigan، نويسنده , , Eric C.، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2010
Pages
7
From page
1462
To page
1468
Abstract
This paper describes a new and straightforward method for controlling spatially distributed plants based on low-order models obtained from spatial discretization techniques. A suitable level of discretization is determined by computing the sequence of ν -gaps between weighted models of successively finer spatial resolution, and bounding this by another sequence with an analytic series. It is proved that such a series forms an upper bound on the ν -gap between a weighted model in the initial sequence and the spatially distributed weighted plant. This enables the synthesis, on low-order models, of robust controllers that are guaranteed to stabilize the actual plant, a feature not shared by most model reduction methods where the gap between the high-order model and plant is often not known, and where the gap between high-order and reduced models may be too expensive to compute. Since the calculation of the current bound is based on weighted models of small state-dimension, the new method avoids the numerical problems inherent in large-scale model reduction based approaches. The ideas presented in this paper are demonstrated on a disturbance rejection problem for a 1D heat equation.
Keywords
partial differential equations , Infinite-dimensional systems , discretization , Measures of model fit , Achievable controller performance , Distributed parameter systems
Journal title
Automatica
Serial Year
2010
Journal title
Automatica
Record number
1448097
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