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An Analysis of the State of Framework Development for Reasoning in Smart Cyber- hysical Systems. / Tepjit, Sirasak; Horvath, Imre; Rusak, Zoltan.

Transdisciplinary Engineering Methods for Social Innovation of Industry 4.0: Proceedings of the 25th ISPE Inc. International Conference on Transdisciplinary Engineering. ed. / M. Peruzzini; M. Pellicciari; C. Bil; J. Stjepandić; N. Wognum. Amsterdam : IOS Press, 2018. p. 82-92 (Advances in Transdisciplinary Engineering; Vol. 7).

Research output: Chapter in Book/Report/Conference proceedingConference contributionScientificpeer-review

Harvard

Tepjit, S, Horvath, I & Rusak, Z 2018, An Analysis of the State of Framework Development for Reasoning in Smart Cyber- hysical Systems. in M Peruzzini, M Pellicciari, C Bil, J Stjepandić & N Wognum (eds), Transdisciplinary Engineering Methods for Social Innovation of Industry 4.0: Proceedings of the 25th ISPE Inc. International Conference on Transdisciplinary Engineering. Advances in Transdisciplinary Engineering, vol. 7, IOS Press, Amsterdam, pp. 82-92, 25th ISPE Inc. International Conference on Transdisciplinary Engineering
, Modena, Italy, 3/07/18. https://doi.org/10.3233/978-1-61499-898-3-82

APA

Tepjit, S., Horvath, I., & Rusak, Z. (2018). An Analysis of the State of Framework Development for Reasoning in Smart Cyber- hysical Systems. In M. Peruzzini, M. Pellicciari, C. Bil, J. Stjepandić, & N. Wognum (Eds.), Transdisciplinary Engineering Methods for Social Innovation of Industry 4.0: Proceedings of the 25th ISPE Inc. International Conference on Transdisciplinary Engineering (pp. 82-92). (Advances in Transdisciplinary Engineering; Vol. 7). Amsterdam: IOS Press. https://doi.org/10.3233/978-1-61499-898-3-82

Vancouver

Tepjit S, Horvath I, Rusak Z. An Analysis of the State of Framework Development for Reasoning in Smart Cyber- hysical Systems. In Peruzzini M, Pellicciari M, Bil C, Stjepandić J, Wognum N, editors, Transdisciplinary Engineering Methods for Social Innovation of Industry 4.0: Proceedings of the 25th ISPE Inc. International Conference on Transdisciplinary Engineering. Amsterdam: IOS Press. 2018. p. 82-92. (Advances in Transdisciplinary Engineering). https://doi.org/10.3233/978-1-61499-898-3-82

Author

Tepjit, Sirasak ; Horvath, Imre ; Rusak, Zoltan. / An Analysis of the State of Framework Development for Reasoning in Smart Cyber- hysical Systems. Transdisciplinary Engineering Methods for Social Innovation of Industry 4.0: Proceedings of the 25th ISPE Inc. International Conference on Transdisciplinary Engineering. editor / M. Peruzzini ; M. Pellicciari ; C. Bil ; J. Stjepandić ; N. Wognum. Amsterdam : IOS Press, 2018. pp. 82-92 (Advances in Transdisciplinary Engineering).

BibTeX

@inproceedings{54b53ea6ed8d42d9bc7617ed4d7dd076,
title = "An Analysis of the State of Framework Development for Reasoning in Smart Cyber- hysical Systems",
abstract = "Smart CPSs (S-CPSs) have been evolving beyond what was identified by the traditional definitions of CPSs. The objective of our research is to investigate the concepts and implementations of S-CPSs, and more specifically, the frameworks proposed for the fuzzy front end of their reasoning processes. The objectives of the paper are: (i) overview of the various framework concepts and implementations in the context of S-CPS, and (ii) analyze the presented frameworks from the points of view of reasoning processes of S-CPSs that included the concepts of structuring knowledge, building awareness, situated reasoning, decision making, and system adaptation. Our major findings are: (i) model-based and composability approaches do not support a development of S-CPSs; (ii) awareness and adaptation behaviors are considered as system level characteristics of S-CPSs that are not achieved by traditional design approaches; (iii) a new framework development should support a compositional design for reasoning in S-CPS. Based on the findings above, we argue that a development of S-CPSs should be supported by a proper framework development for compositional design of smart reasoning and coping with the challenges of compositionality requires both software-level integration and holistic fusion of knowledge by means of semantic transformations. It needs further investigation if a compositionality enabling framework should appear in the form of a meta-framework (abstract) or in the form of a semantically integrated (concrete) framework.",
keywords = "Cyber-physical systems, system smartness, framework development, smart reasoning platforms, reasoning mechanisms",
author = "Sirasak Tepjit and Imre Horvath and Zoltan Rusak",
year = "2018",
doi = "10.3233/978-1-61499-898-3-82",
language = "English",
isbn = "978-1-61499-897-6",
series = "Advances in Transdisciplinary Engineering",
publisher = "IOS Press",
pages = "82--92",
editor = "M. Peruzzini and M. Pellicciari and C. Bil and J. Stjepandić and N. Wognum",
booktitle = "Transdisciplinary Engineering Methods for Social Innovation of Industry 4.0",
address = "Netherlands",

}

RIS

TY - GEN

T1 - An Analysis of the State of Framework Development for Reasoning in Smart Cyber- hysical Systems

AU - Tepjit, Sirasak

AU - Horvath, Imre

AU - Rusak, Zoltan

PY - 2018

Y1 - 2018

N2 - Smart CPSs (S-CPSs) have been evolving beyond what was identified by the traditional definitions of CPSs. The objective of our research is to investigate the concepts and implementations of S-CPSs, and more specifically, the frameworks proposed for the fuzzy front end of their reasoning processes. The objectives of the paper are: (i) overview of the various framework concepts and implementations in the context of S-CPS, and (ii) analyze the presented frameworks from the points of view of reasoning processes of S-CPSs that included the concepts of structuring knowledge, building awareness, situated reasoning, decision making, and system adaptation. Our major findings are: (i) model-based and composability approaches do not support a development of S-CPSs; (ii) awareness and adaptation behaviors are considered as system level characteristics of S-CPSs that are not achieved by traditional design approaches; (iii) a new framework development should support a compositional design for reasoning in S-CPS. Based on the findings above, we argue that a development of S-CPSs should be supported by a proper framework development for compositional design of smart reasoning and coping with the challenges of compositionality requires both software-level integration and holistic fusion of knowledge by means of semantic transformations. It needs further investigation if a compositionality enabling framework should appear in the form of a meta-framework (abstract) or in the form of a semantically integrated (concrete) framework.

AB - Smart CPSs (S-CPSs) have been evolving beyond what was identified by the traditional definitions of CPSs. The objective of our research is to investigate the concepts and implementations of S-CPSs, and more specifically, the frameworks proposed for the fuzzy front end of their reasoning processes. The objectives of the paper are: (i) overview of the various framework concepts and implementations in the context of S-CPS, and (ii) analyze the presented frameworks from the points of view of reasoning processes of S-CPSs that included the concepts of structuring knowledge, building awareness, situated reasoning, decision making, and system adaptation. Our major findings are: (i) model-based and composability approaches do not support a development of S-CPSs; (ii) awareness and adaptation behaviors are considered as system level characteristics of S-CPSs that are not achieved by traditional design approaches; (iii) a new framework development should support a compositional design for reasoning in S-CPS. Based on the findings above, we argue that a development of S-CPSs should be supported by a proper framework development for compositional design of smart reasoning and coping with the challenges of compositionality requires both software-level integration and holistic fusion of knowledge by means of semantic transformations. It needs further investigation if a compositionality enabling framework should appear in the form of a meta-framework (abstract) or in the form of a semantically integrated (concrete) framework.

KW - Cyber-physical systems

KW - system smartness

KW - framework development

KW - smart reasoning platforms

KW - reasoning mechanisms

UR - http://resolver.tudelft.nl/uuid:54b53ea6-ed8d-42d9-bc76-17ed4d7dd076

U2 - 10.3233/978-1-61499-898-3-82

DO - 10.3233/978-1-61499-898-3-82

M3 - Conference contribution

SN - 978-1-61499-897-6

T3 - Advances in Transdisciplinary Engineering

SP - 82

EP - 92

BT - Transdisciplinary Engineering Methods for Social Innovation of Industry 4.0

A2 - Peruzzini, M.

A2 - Pellicciari, M.

A2 - Bil, C.

A2 - Stjepandić, J.

A2 - Wognum, N.

PB - IOS Press

CY - Amsterdam

ER -

ID: 46620480