DocumentCode :
1203728
Title :
Controllability in Linear Sequential Networks
Author :
Cohn, Martin
Volume :
9
Issue :
1
fYear :
1962
fDate :
3/1/1962 12:00:00 AM
Firstpage :
74
Lastpage :
78
Abstract :
A linear sequential network (LSN) with m inputs and 
delay elements can be viewed both as a linear control system and as a sequential machine. A linear system is 
controllable if and only if every state transition can be achieved in exactly steps. It is shown that controllability is equivalent to controllability, and that a LSN is controllable if and only if it is a stronglyconnected sequential machine. Techniques are given for determining controllability in LSN\´s, for finding a sequence of input vectors for an arbitrary state transition, and for finding a similar sequence of input vectors, where is the smallest integer such that the LSN is controllable.
delay elements can be viewed both as a linear control system and as a sequential machine. A linear system is controllable if and only if every state transition can be achieved in exactly steps. It is shown that controllability is equivalent to controllability, and that a LSN is controllable if and only if it is a stronglyconnected sequential machine. Techniques are given for determining controllability in LSN\´s, for finding a sequence of input vectors for an arbitrary state transition, and for finding a similar sequence of input vectors, where is the smallest integer such that the LSN is controllable.Keywords :
Added delay; Arithmetic; Circuit theory; Control systems; Controllability; Decoding; Digital control; Galois fields; Linear systems; Vectors;
fLanguage :
English
Journal_Title :
Circuit Theory, IRE Transactions on
Publisher :
ieee
ISSN :
0096-2007
Type :
jour
DOI :
10.1109/TCT.1962.1086863
Filename :
1086863
Link To Document :
