Toward a unified modeling and control for sustainable and resilient electric energy systems /
In this paper cyber role in social-ecological energy systems (SEES) is formalized by using the language of large-scale dynamical systems. The key notion of interaction variables is introduced in support of their modeling as multilayered dynamical systems. It is stressed that qualitatively different...
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Main Authors: | |
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Published: |
Now Publishers Inc.,
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Publisher Address: | Hanover, MA : |
Publication Dates: | [2016] |
Literature type: | Book |
Language: | English |
Series: |
Foundations and trends in electric energy systems,
volume 1, issue 1, 2016 |
Subjects: | |
Summary: |
In this paper cyber role in social-ecological energy systems (SEES) is formalized by using the language of large-scale dynamical systems. The key notion of interaction variables is introduced in support of their modeling as multilayered dynamical systems. It is stressed that qualitatively different cyber designs are required for enabling performance of qualitatively different SEES architectures. In particular, it is proposed that composite control-based hierarchical control lends itself more naturally to supporting large-scale regulated monopolies, and that distributed multi-layered control with or without coordination is key to supporting SEES architectures comprising many decision makers. Today's hierarchical control is described as a particular case of hierarchical composite control. Having these formulations may help bridge R & D efforts across vastly multi-disciplinary communities working in the field of changing electric energy systems. |
Item Description: | Non-Latin script record |
Carrier Form: | xii, 150 pages : illustrations ; 23 cm. |
Bibliography: | Includes bibliographical references (pages 141-150). |
ISBN: |
9781680832266 1680832263 |
Index Number: | TK1010 |
CLC: | TM76 |
Call Number: | TM76/I28-1 |