Title :
A universal Chow-Willsky scheme and detectability criteria
Author :
Nyberg, Mattias ; Nielsen, Lars
Author_Institution :
Vehicular Syst., Linkoping Univ., Sweden
fDate :
1/1/2000 12:00:00 AM
Abstract :
An important issue in diagnosis research is design methods for residual generation. One method is the Chow-Willsky scheme. Here, the Chow-Willsky scheme is extended as it becomes universal in the sense that, for both discrete and continuous linear systems, it is shown to be able to generate all possible parity functions. This result means it can also be used to design all possible residual generators. It is shown that previous extensions to the Chow-Willsky scheme are not universal, which is the case when dynamics controllable from faults exist, but not from the inputs or disturbances. Also included here are two conditions on the process for fault detectability and strong fault detectability
Keywords :
continuous time systems; controllability; discrete systems; fault diagnosis; linear systems; polynomials; detectability criteria; parity functions; residual generation; strong fault detectability; universal Chow-Willsky scheme; Continuous time systems; Control systems; Design methodology; Equations; Fault detection; Fault diagnosis; Linear systems; Monitoring; Polynomials; Vehicle dynamics;
Journal_Title :
Automatic Control, IEEE Transactions on
