AbstractWe solve a number of feedback synthesis problems in the context of noninteracting control or block-diagonal decoupling for finite-dimensional linear time-invariant systems. We consider a plant that, apart from a control input and a measurement output, has a given number of exogenous input vectors and the same number of exogenous output vectors. The decoupling problem studied is to find dynamic compensators from the plant measurement output (which in this paper will be assumed to be the full plant state) to the plant control input in such a way that the following requirements are met: (1) the closed-loop transfer matrix is block-diagonal, (2) the remaining diagonal blocks are stable with respect to an a priori given first stability s...
Consider a linear system $\Sigma$ that, apart from a control input and a measurement output, has two...
none2A dynamic feedforward scheme enables measurable signal decoupling to be solved independently of...
Bibliography: p. 11."August, 1981."Supported in part by the U.S. Dept. of Energy under Contract DOE/...
We solve a number of feedback synthesis problems in the context of noninteracting control or block-d...
AbstractWe solve a number of feedback synthesis problems in the context of noninteracting control or...
We solve a number of feedback synthesis problems in the context of noninteracting control or block-d...
We solve a number of feedback synthesis problems in the context of noninteracting control or block-d...
In this paper we shall solve a number of feedback synthesis problems in the context of non interacti...
Consider a linear system S that, apart from a control input and a measurement output, has two exogen...
In this paper we shall consider systems that in addition to a control input and a measurement output...
none1noThe structural properties of self-bounded controlled invariant subspaces are fundamental to t...
This note considers the almost disturbance decoupling problem with internal stability. The problem i...
In the design of feedback control systems for linear multivariable plants, insisting on the eliminat...
summary:The structural properties of self-bounded controlled invariant subspaces are fundamental to ...
A dynamic feedforward scheme allows measurable signal decoupling to be solved independently of other...
Consider a linear system $\Sigma$ that, apart from a control input and a measurement output, has two...
none2A dynamic feedforward scheme enables measurable signal decoupling to be solved independently of...
Bibliography: p. 11."August, 1981."Supported in part by the U.S. Dept. of Energy under Contract DOE/...
We solve a number of feedback synthesis problems in the context of noninteracting control or block-d...
AbstractWe solve a number of feedback synthesis problems in the context of noninteracting control or...
We solve a number of feedback synthesis problems in the context of noninteracting control or block-d...
We solve a number of feedback synthesis problems in the context of noninteracting control or block-d...
In this paper we shall solve a number of feedback synthesis problems in the context of non interacti...
Consider a linear system S that, apart from a control input and a measurement output, has two exogen...
In this paper we shall consider systems that in addition to a control input and a measurement output...
none1noThe structural properties of self-bounded controlled invariant subspaces are fundamental to t...
This note considers the almost disturbance decoupling problem with internal stability. The problem i...
In the design of feedback control systems for linear multivariable plants, insisting on the eliminat...
summary:The structural properties of self-bounded controlled invariant subspaces are fundamental to ...
A dynamic feedforward scheme allows measurable signal decoupling to be solved independently of other...
Consider a linear system $\Sigma$ that, apart from a control input and a measurement output, has two...
none2A dynamic feedforward scheme enables measurable signal decoupling to be solved independently of...
Bibliography: p. 11."August, 1981."Supported in part by the U.S. Dept. of Energy under Contract DOE/...