Stability of linear multipass processes

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Stability of linear multipass processes

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The recent contribution by Edwards to the stability analysis of multipass processes using the familiar inverse-Nyquist method is discussed using the techniques of functional analysis. It is noted that the modelling procedure suggested by Edwards neglects the finite pass-length nature of the processes and takes no account of the initial conditions for each pass. A natural and physically meaningful definition of multipass stability is proposed and characterised by conditions on the system operator. Application of the results to a cogging process and a class of linear, time-invariant systems indicates that previous results are highly pessimistic. The anomaly is explained in terms of a defined notion of stability along the pass.

Inspec keywords: stability; modelling; functional analysis; linear systems

Other keywords: linear multipass process stability; time invariant systems; functional analysis; inverse Nyquist method; cogging process

Subjects: Control system analysis and synthesis methods; Stability in control theory; Mathematical analysis

References

    1. 1)
      • J.B. Edwards , J.M. Greenberg . Longitudinal interactions in multipass processes. Proc. IEE , 4 , 385 - 392
    2. 2)
      • A.G.J. MacFarlane , J.J. Belletrutti . The characteristic locus design method. Automatica , 575 - 588
    3. 3)
      • A.E. Taylor . (1958) , Introduction to functional analysis.
    4. 4)
      • J.B. Edwards . Stability problems in the contorl of multipass processes. Proc. IEE , 11 , 1425 - 1432
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