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Gap-Metric Robustness Analysis of Linear Periodically Time-Varying Feedback Systems.

Cantoni, M. W. and Glover, K.,

SIAM Journal on Control and Optimization, Volume 38, Number 3, Pages 803-822, 2000

Abstract

Quantitative robust stability results are established in this paper for feedback systems that evolve in continuous-time and exhibit linear, periodically time-varying (LPTV) behaviour. The results presented are analogous to results known to hold for linear, time-invariant (LTI) systems, although they do not follow directly from these. System uncertainty is measured using the gap metric, which quantifies the distance between systems in terms of the aperture between their graphs (the subspaces corresponding to all input-output pairs for each system). The main robustness result characterises the largest gap-ball of LPTV plants stabilised by a nominal LPTV, feedback controller known to stabilise a nominal LPTV plant at the centre of this ball. A key step in the proof of this result makes use of a formula derived for the directed gap between LPTV systems. This formula is essentially a generalisation of Georgiou's for LTI systems. Importantly, all of the results presented apply to a class of sampled-data control-systems, as a special case.

BibTex Entry

@Article{,: author = {Cantoni, M. W. and Glover, K.,},; journal = {SIAM Journal on Control and Optimization},; title = {Gap-Metric Robustness Analysis of Linear Periodically Time-Varying Feedback Systems.},; year = {2000},; number = {3},; pages = {803-822},; volume = {38}
}



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