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Positive systems[1][2] constitute a class of systems that has the important property that its state variables are never negative, given a positive initial state. These systems appear frequently in practical applications,[3][4] as these variables represent physical quantities, with positive sign (levels, heights, concentrations, etc.).

The fact that a system is positive has important implications in the control system design.[5] For instance, an asymptotically stable positive linear time-invariant system always admits a diagonal quadratic Lyapunov function, which makes these systems more numerical tractable in the context of Lyapunov analysis.[6]

It is also important to take this positivity into account for state observer design, as standard observers (for example Luenberger observers) might give illogical negative values.[7]

Conditions for positivity

A continuous-time linear system x˙=Ax is positive if and only if A is a Metzler matrix.[1]

A discrete-time linear system x(k+1)=Ax(k) is positive if and only if A is a nonnegative matrix.[1]

See also

References

Template:Reflist

  1. 1.0 1.1 1.2 T. Kaczorek. Positive 1D and 2D Systems. Springer- Verlag, 2002
  2. L. Farina and S. Rinaldi, Positive Linear Systems; Theory and Applications, J. Wiley, New York, 2000
  3. Template:Cite journal
  4. Template:Cite journal
  5. Template:Cite journal
  6. Template:Cite journal
  7. Template:Cite book
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