© The Institution of Electrical Engineers
A technique is suggested for easing the loop-ordering difficulty inherent in Mayne's sequential method for multi-variable-feedback-control-system design, by combining the concept of loop addition with that of dyadic approximation. It is shown that, if the plant matrix is dyadic, the problem is completely removed.
References
-
-
1)
-
D.Q. Mayne
.
The design of linear multivariable systems.
Automatica
,
201 -
207
-
2)
-
D.H. Mee ,
R.S. Hannah
.
Nonminimum-phase difficulties in multivariable-control-system design.
Electron. Lett.
,
469 -
470
-
3)
-
D.H. Owens
.
Dyadic approximation method for multivariable control-systems analysis with a nuclear-reactor application.
Proc. IEE
,
1 ,
801 -
809
-
4)
-
Owens, D.H.: `A multivariable control analysis of distributed parameter nuclear reactors', 1973, Ph.D. thesis, , London.
-
5)
-
D.H. Owens
.
Multivariable-control-system design concepts in the failure analysis of a class of nuclear-reactor spatial-control systems.
Proc. IEE
,
1 ,
119 -
125
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