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|Title:||Feedforward control: a full-information approach|
|Citation:||Automatica, 2001, 37 (1), pp.17-28|
|Abstract:||The Youla parametrization of two-degree-of-freedom controllers reveals that the design of the prefilter and the design of the regulator can be done independently. In this paper, a unified framework is proposed to address the design of the feedforward part of a two-degree-of-freedom controller. The approach deals both with tracking of a causal reference signal and with rejection of a causal measurable disturbance. It is shown that the determination of a feedforward filter, with a constraint on the nominal control effort, reduces to the solution of a particular full-information problem. The approach is attractive because it leads to a significant reduction in the number of decision variables in the design process. The method also extends naturally to plants in a polytope. Its effectiveness is demonstrated on two numerical examples. In the first example, the design of a linear time-invariant feedforward controller is carried out to reject a measurable disturbance and to follow a reference signal; while in the second example, we address the design of a robust gain scheduled two-degree-of-freedom controller.|
|Description:||This paper was published as Automatica, 2001, 37 (1), pp.17-28. It is available from http://www.sciencedirect.com/science/journal/00051098. Doi: 10.1016/S0005-1098(00)00118-7|
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|Appears in Collections:||Published Articles, Dept. of Engineering|
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