Title :
Small gain versus positive real modeling of real parameter uncertainty
Author :
Bernstein, Dennis S. ; Haddad, Wassim M. ; Hyland, David C.
Author_Institution :
Harris Corp., Melbourne, FL, USA
Abstract :
The authors shown by means of a lightly damped oscillator example with uncertain stiffness that small gain modeling of constant real parameter uncertainty can be extremely conservative. This example was chosen to highlight inherent drawbacks of small-gain principles applied to the analysis of robust controllers for lightly damped flexible structures. If, for this class of problems, uncertainty in the stiffness operator, which may be relatively large, is modeled as a small gain H∞ block, then the arbitrary phase characteristics of the uncertainty block can contribute to a significant perturbation of the damping operator, which may be relatively small. An alternative uncertainty modeling approach involving positive real transfer functions and the positivity theorem is shown to be significantly less conservative
Keywords :
distributed parameter systems; modelling; oscillators; damping operator; distributed parameter systems; lightly damped flexible structures; lightly damped oscillator; positive real modeling; positive real transfer functions; positivity theorem; real parameter uncertainty; robust controllers; small gain modeling; uncertain stiffness; uncertainty block; uncertainty modeling; Aerospace engineering; Damping; Equations; Feedback; Flexible structures; Frequency; Government; Lighting control; Oscillators; Robust control; Robust stability; Robustness; Transfer functions; Uncertain systems; Uncertainty;
Conference_Titel :
Decision and Control, 1991., Proceedings of the 30th IEEE Conference on
Conference_Location :
Brighton
Print_ISBN :
0-7803-0450-0
DOI :
10.1109/CDC.1991.261363
