Laboratoire Of Genie Informatique Et Dingenierie Of Production Lgi2P

Nîmes, France

Laboratoire Of Genie Informatique Et Dingenierie Of Production Lgi2P

Nîmes, France
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Amokrane N.,Laboratoire Of Genie Informatique Et Dingenierie Of Production Lgi2P | Chapurlat V.,Laboratoire Of Genie Informatique Et Dingenierie Of Production Lgi2P | Courbis A.L.,Laboratoire Of Genie Informatique Et Dingenierie Of Production Lgi2P | Lambolais T.,Laboratoire Of Genie Informatique Et Dingenierie Of Production Lgi2P | Rahhou M.,RESULIS
IFAC Proceedings Volumes (IFAC-PapersOnline) | Year: 2015

Requirements engineering is a major step in any project to enhance its chances to succeed. For many reasons, this step is particularly crucial when it is question of (re)engineering information systems to support the business activities of Small and Medium size Enterprises (SMEs). In this case, we state that requirements are highly related to the definition of the enterprise model. This article presents an approach for requirements authoring and verification that promotes the autonomy of domain experts in the case of SMEs. © 2015, IFAC (International Federation of Automatic Control) Hosting by Elsevier Ltd. All rights reserved.


Couturier P.,Laboratoire Of Genie Informatique Et Dingenierie Of Production Lgi2P | Lo M.,Laboratoire Of Genie Informatique Et Dingenierie Of Production Lgi2P | Imoussaten A.,Laboratoire Of Genie Informatique Et Dingenierie Of Production Lgi2P | Chapurlat V.,Laboratoire Of Genie Informatique Et Dingenierie Of Production Lgi2P | Montmain J.,Laboratoire Of Genie Informatique Et Dingenierie Of Production Lgi2P
Mechatronics | Year: 2014

The design of mechatronic systems involves several technical and scientific disciplines. It is often difficult to anticipate, at the outset, the consequences of design decisions on the ultimate effectiveness of such complex systems, in which case the evaluation process is required to support the designers each time engineering choices must be made or justified. Since designers may belong to different technical and scientific cultures however, their understanding of both the design stakes and the evaluation process is too often biased. Moreover, design choices take place in an uncertain context and according to multiple criteria, some of which may be contradictory. In order to track the consequences of design decisions, we are proposing a conceptual data model to perform evaluations within the MBSE framework of Systems Engineering. We then proceed by relying on the relationships demonstrated by such a model to identify the potential impacts of design choices on future product performance. Since data available during the conceptual phase of the design are typically uncertain or imprecise, an original research protocol is extended to a qualitative impact analysis for the purpose of highlighting the most promising alternative system design solutions (ASDS). An example in the mechatronics field serves to illustrate our proposals. © 2014 Elsevier Ltd. All rights reserved. © 2014 Elsevier Ltd. All rights reserved.


Mallek S.,Laboratoire Of Genie Informatique Et Dingenierie Of Production Lgi2P | Daclin N.,Laboratoire Of Genie Informatique Et Dingenierie Of Production Lgi2P | Chapurlat V.,Laboratoire Of Genie Informatique Et Dingenierie Of Production Lgi2P
IFAC Proceedings Volumes (IFAC-PapersOnline) | Year: 2011

Interoperability is became a crucial question to improve success of a collaboration in a networked enterprise. Therefore, in a collaborative context, enterprises have to detect their interoperability problems to solve and to reach an efficient collaboration. This research work aims then to define, to formalise and to analyse a set of interoperability requirements that each partner of a collaborative process have to satisfy prior to any collaboration. This paper focuses and illustrates how interoperation requirements related to the dynamic aspect of the collaboration may be formalised and verified by the use of a formal verification technique. © 2011 IFAC.

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