Frequency analysis and norms of distributed spatially periodic systems

Makan Fardad; Mihailo R. Jovanovic; Bassam Bamieh

doi:10.1109/TAC.2008.2006104

Frequency analysis and norms of distributed spatially periodic systems

Makan Fardad, Mihailo R. Jovanovic, Bassam Bamieh

Electrical and Computer Engineering

Research output: Contribution to journal › Article › peer-review

19 Scopus citations

Abstract

We investigate several fundamental aspects of the theory of linear distributed systems with spatially periodic coefficients. We develop a spatial-frequency domain representation analogous to the lifted or frequency response operator representation for linear time periodic systems. Using this representation, we introduce the notion of the H2 norm for this class of systems and provide algorithms for its computation. A stochastic interpretation of the H2 norm is given in terms of spatially cyclostationary random fields and spectral-correlation density operators. When the periodic coefficients are viewed as feedback modifications of spatially invariant systems, we show how they can stabilize or destabilize the original systems in a manner analogous to vibrational control or parametric resonance in time periodic systems. Two examples from physics are provided to illustrate the main results.

Original language	English (US)
Pages (from-to)	2266-2279
Number of pages	14
Journal	IEEE Transactions on Automatic Control
Volume	53
Issue number	10
DOIs	https://doi.org/10.1109/TAC.2008.2006104
State	Published - Nov 27 2008

Keywords

Cyclostationary random fields
Frequency domain lifting
Frequency response opertators
H2 norm
Partial differential equation (PDE) with periodic coefficients
Spatially periodic systems

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10.1109/TAC.2008.2006104

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abstract = "We investigate several fundamental aspects of the theory of linear distributed systems with spatially periodic coefficients. We develop a spatial-frequency domain representation analogous to the lifted or frequency response operator representation for linear time periodic systems. Using this representation, we introduce the notion of the H2 norm for this class of systems and provide algorithms for its computation. A stochastic interpretation of the H2 norm is given in terms of spatially cyclostationary random fields and spectral-correlation density operators. When the periodic coefficients are viewed as feedback modifications of spatially invariant systems, we show how they can stabilize or destabilize the original systems in a manner analogous to vibrational control or parametric resonance in time periodic systems. Two examples from physics are provided to illustrate the main results.",

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AU - Bamieh, Bassam

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AB - We investigate several fundamental aspects of the theory of linear distributed systems with spatially periodic coefficients. We develop a spatial-frequency domain representation analogous to the lifted or frequency response operator representation for linear time periodic systems. Using this representation, we introduce the notion of the H2 norm for this class of systems and provide algorithms for its computation. A stochastic interpretation of the H2 norm is given in terms of spatially cyclostationary random fields and spectral-correlation density operators. When the periodic coefficients are viewed as feedback modifications of spatially invariant systems, we show how they can stabilize or destabilize the original systems in a manner analogous to vibrational control or parametric resonance in time periodic systems. Two examples from physics are provided to illustrate the main results.

KW - Cyclostationary random fields

KW - Frequency domain lifting

KW - Frequency response opertators

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KW - Partial differential equation (PDE) with periodic coefficients

KW - Spatially periodic systems

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