MODEL.LA. A modeling language for process engineering-II. Multifaceted modeling of processing systems

G. Stephanopoulos; G. Henning; H. Leone

doi:10.1016/0098-1354(90)87041-M

MODEL.LA. A modeling language for process engineering-II. Multifaceted modeling of processing systems

G. Stephanopoulos, G. Henning, H. Leone

Research output: Contribution to journal › Article › peer-review

49 Scopus citations

Abstract

Multifaceted (multiview, multicontext, multilevel) modeling of processing systems is a central requirement for further automation of process engineering tasks. This paper describes how the formal framework of MODEL.LA., established in Part I, is being used to construct multifaceted models of processing systems. More specifically, it shows how MODEL.LA. (a) can access multiple views of a model; (b) generate contextual models; and (c) establish consistency among multiple, concurrent models developed at different levels of abstraction. The procedures carrying out these operations are described and a series of illustrations is used to clarify the various concepts.

Original language	English (US)
Pages (from-to)	847-869
Number of pages	23
Journal	Computers and Chemical Engineering
Volume	14
Issue number	8
DOIs	https://doi.org/10.1016/0098-1354(90)87041-M
State	Published - Aug 1990
Externally published	Yes

ASJC Scopus subject areas

General Chemical Engineering
Computer Science Applications

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10.1016/0098-1354(90)87041-M

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title = "MODEL.LA. A modeling language for process engineering-II. Multifaceted modeling of processing systems",

abstract = "Multifaceted (multiview, multicontext, multilevel) modeling of processing systems is a central requirement for further automation of process engineering tasks. This paper describes how the formal framework of MODEL.LA., established in Part I, is being used to construct multifaceted models of processing systems. More specifically, it shows how MODEL.LA. (a) can access multiple views of a model; (b) generate contextual models; and (c) establish consistency among multiple, concurrent models developed at different levels of abstraction. The procedures carrying out these operations are described and a series of illustrations is used to clarify the various concepts.",

author = "G. Stephanopoulos and G. Henning and H. Leone",

note = "Funding Information: Acknoll,fedRements--G. Henning and H. Leone are grateful for the financial aid received from the “Consejo National de lnvestigaciones Cientiticas y Ticnicas (CONICET)“. Argentina. Partial support through the CPE-8413715 Grant of NSF is gratefully acknowledged.",

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PY - 1990/8

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AB - Multifaceted (multiview, multicontext, multilevel) modeling of processing systems is a central requirement for further automation of process engineering tasks. This paper describes how the formal framework of MODEL.LA., established in Part I, is being used to construct multifaceted models of processing systems. More specifically, it shows how MODEL.LA. (a) can access multiple views of a model; (b) generate contextual models; and (c) establish consistency among multiple, concurrent models developed at different levels of abstraction. The procedures carrying out these operations are described and a series of illustrations is used to clarify the various concepts.

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MODEL.LA. A modeling language for process engineering-II. Multifaceted modeling of processing systems

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