Minimal circuit and state space realization of 2D all-pole systems with coefficient symmetry

George E. Antoniou

doi:10.1109/MED.2010.5547852

Minimal circuit and state space realization of 2D all-pole systems with coefficient symmetry

George E. Antoniou

Computer Science

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

In this paper two dimensional (2D) minimal circuit and state space realizations are presented for 2D all-pole systems with coefficient symmetry. The proposed state space realization is based on the corresponding circuit implementation. For the state space realization the classical 2D model of the Roesser type is used. The dimension of the state vector and the number of delay elements are minimal. Two examples are presented to illustrate the proposed results.

Original language	English
Title of host publication	18th Mediterranean Conference on Control and Automation, MED'10 - Conference Proceedings
Pages	1413-1416
Number of pages	4
DOIs	https://doi.org/10.1109/MED.2010.5547852
State	Published - 29 Sep 2010
Event	18th Mediterranean Conference on Control and Automation, MED'10 - Marrakech, Morocco Duration: 23 Jun 2010 → 25 Jun 2010

Other

Other	18th Mediterranean Conference on Control and Automation, MED'10
Country/Territory	Morocco
City	Marrakech
Period	23/06/10 → 25/06/10

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10.1109/MED.2010.5547852

Cite this

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AB - In this paper two dimensional (2D) minimal circuit and state space realizations are presented for 2D all-pole systems with coefficient symmetry. The proposed state space realization is based on the corresponding circuit implementation. For the state space realization the classical 2D model of the Roesser type is used. The dimension of the state vector and the number of delay elements are minimal. Two examples are presented to illustrate the proposed results.

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Minimal circuit and state space realization of 2D all-pole systems with coefficient symmetry

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