A variance reduction technique for identification in dynamic networks

Bilal Gunes; Arne Dankers; Paul M J Van Den Hof

doi:10.3182/20140824-6-ZA-1003.01495

A variance reduction technique for identification in dynamic networks

Bilal Gunes, Arne Dankers, Paul M J Van Den Hof

Research output: Contribution to journal › Conference article › Scientific › peer-review

14 Citations (Scopus)

38 Downloads (Pure)

Abstract

With advancing technology, systems are becoming increasingly interconnected and form more complex networks. Additionally, more measurements are available from systems due to cheaper sensors. Hence there is a need for identification methods specifically designed for networks. For dynamic networks with known interconnection structures, several methods have been proposed for obtaining consistent estimates. We suppose that the internal variables in the network are measured with noise, but that there are external reference signals present in the network that are known exactly. A method that is able to deal with this situation is the two stage method, which solves several open loop identification problems sequentially. In this paper it is shown that solving the problems simultaneously leads to estimates with lower variance.

Original language	English
Pages (from-to)	2842-2847
Journal	IFAC Proceedings Volume
Volume	47
Issue number	3
DOIs	https://doi.org/10.3182/20140824-6-ZA-1003.01495
Publication status	Published - 2014
Event	19th IFAC World Congress on International Federation of Automatic Control, IFAC 2014 - Pretoria, Cape Town, South Africa Duration: 24 Aug 2014 → 29 Aug 2014 Conference number: 19

Keywords

Dynamic networks
Linear systems
System identification
Variance

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10.3182/20140824-6-ZA-1003.01495

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title = "A variance reduction technique for identification in dynamic networks",

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AU - Gunes, Bilal

AU - Dankers, Arne

AU - Van Den Hof, Paul M J

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N2 - With advancing technology, systems are becoming increasingly interconnected and form more complex networks. Additionally, more measurements are available from systems due to cheaper sensors. Hence there is a need for identification methods specifically designed for networks. For dynamic networks with known interconnection structures, several methods have been proposed for obtaining consistent estimates. We suppose that the internal variables in the network are measured with noise, but that there are external reference signals present in the network that are known exactly. A method that is able to deal with this situation is the two stage method, which solves several open loop identification problems sequentially. In this paper it is shown that solving the problems simultaneously leads to estimates with lower variance.

AB - With advancing technology, systems are becoming increasingly interconnected and form more complex networks. Additionally, more measurements are available from systems due to cheaper sensors. Hence there is a need for identification methods specifically designed for networks. For dynamic networks with known interconnection structures, several methods have been proposed for obtaining consistent estimates. We suppose that the internal variables in the network are measured with noise, but that there are external reference signals present in the network that are known exactly. A method that is able to deal with this situation is the two stage method, which solves several open loop identification problems sequentially. In this paper it is shown that solving the problems simultaneously leads to estimates with lower variance.

KW - Dynamic networks

KW - Linear systems

KW - System identification

KW - Variance

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SN - 1474-6670

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A variance reduction technique for identification in dynamic networks

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