Mapping from parametric characteristics to generalized frequency response functions of non-linear systems
Mapping from parametric characteristics to generalized frequency response functions of non-linear systems
Based on the parametric characteristic of the nth-order generalized frequency response function (GFRF) for non-linear systems described by a non-linear differential equation (NDE) model, a mapping function from the parametric characteristics to the GFRFs is established, by which the nth-order GFRF can be directly written into a more straightforward and meaningful form in terms of the first order GFRF, i.e., an n-degree polynomial function of the first order GFRF. The new expression has no recursive relationship between different order GFRFs, and demonstrates some new properties of the GFRFs which can explicitly unveil the linear and non-linear factors included in the GFRFs, and reveal clearly the relationship between the nth-order GFRF and its parametric characteristic, as well as the relationship between the nth-order GFRF and the first order GFRF. The new results provide a novel and useful insight into the frequency domain analysis and design of non-linear systems based on the GFRFs. Several examples are given to illustrate the theoretical results.
1071-1088
Jing, Xing Jian
2fd9fcd4-7903-47a0-971d-5d26d27d4ea9
Lang, Zi Qiang
dec658e4-f38f-43fc-b094-f68c43be3105
Billings, Stephen A.
a67e1eb0-9795-42b0-9d3b-2bc158373cb2
July 2008
Jing, Xing Jian
2fd9fcd4-7903-47a0-971d-5d26d27d4ea9
Lang, Zi Qiang
dec658e4-f38f-43fc-b094-f68c43be3105
Billings, Stephen A.
a67e1eb0-9795-42b0-9d3b-2bc158373cb2
Jing, Xing Jian, Lang, Zi Qiang and Billings, Stephen A.
(2008)
Mapping from parametric characteristics to generalized frequency response functions of non-linear systems.
International Journal of Control, 81 (7), .
(doi:10.1080/00207170701636542).
Abstract
Based on the parametric characteristic of the nth-order generalized frequency response function (GFRF) for non-linear systems described by a non-linear differential equation (NDE) model, a mapping function from the parametric characteristics to the GFRFs is established, by which the nth-order GFRF can be directly written into a more straightforward and meaningful form in terms of the first order GFRF, i.e., an n-degree polynomial function of the first order GFRF. The new expression has no recursive relationship between different order GFRFs, and demonstrates some new properties of the GFRFs which can explicitly unveil the linear and non-linear factors included in the GFRFs, and reveal clearly the relationship between the nth-order GFRF and its parametric characteristic, as well as the relationship between the nth-order GFRF and the first order GFRF. The new results provide a novel and useful insight into the frequency domain analysis and design of non-linear systems based on the GFRFs. Several examples are given to illustrate the theoretical results.
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Published date: July 2008
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Local EPrints ID: 65333
URI: http://eprints.soton.ac.uk/id/eprint/65333
ISSN: 0020-3270
PURE UUID: ec639d70-5752-4f44-bb53-3587296516fb
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Date deposited: 13 Feb 2009
Last modified: 15 Mar 2024 12:07
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Author:
Xing Jian Jing
Author:
Zi Qiang Lang
Author:
Stephen A. Billings
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