An EM-based identification algorithm for a class of hybrid systems with application to power electronics

Aguilera, R. P.; Godoy, B. I.; Agüero, J. C.; Goodwin, G. C.; Yuz, J. I.

Title: An EM-based identification algorithm for a class of hybrid systems with application to power electronics
Creator: Aguilera, R. P.; Godoy, B. I.; Agüero, J. C.; Goodwin, G. C.; Yuz, J. I.
Relation: ARC.1095123 and 110103074
Relation: International Journal of Control Vol. 87, Issue 7, p. 1339-1351
Publisher Link: http://dx.doi.org/10.1080/00207179.2013.876668
Publisher: Taylor & Francis
Resource Type: journal article
Date: 2014
Description: In this paper we present an identification algorithm for a class of continuous-time hybrid systems. In such systems, both continuous-time and discrete-time dynamics are involved. We apply the expectation-maximisation algorithm to obtain the maximum likelihood estimate of the parameters of a discrete-time model expressed in incremental form. The main advantage of this approach is that the continuous-time parameters can directly be recovered. The technique is particularly well suited to fast-sampling rates. As an application, we focus on a standard identification problem in power electronics. In this field, our proposed algorithm is of importance since accurate modelling of power converters is required in high- performance applications and for fault diagnosis. As an illustrative example, and to verify the performance of our proposed algorithm, we apply our results to a flying capacitor multicell converter.
Subject: system identification; maximum likelihood; power conversion
Identifier: http://hdl.handle.net/1959.13/1306117
Identifier: uon:21157
Identifier: ISSN:0020-7179
Language: eng
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