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Anne-Marie Barthe-Delanoë

Ingénieur de recherche
Ingénieur de recherche
Présent : NON
05 63 49 33 11
Bureau 0A01
Mots-clés : 
Axes : 
  • Axe 1 : IO

Publications significatives

  • Supporting interoperability of collaborative networks through engineering of a service-based Mediation Information System (MISE 2.0)

    Références :
    The Mediation Information System Engineering project is currently finishing its second iteration (MISE 2.0). The main objective of this scientific project is to provide any emerging collaborative situation with methods and tools to deploy a Mediation Information System (MIS). MISE 2.0 aims at defining and designing a service-based platform, dedicated to initiating and supporting the interoperability of collaborative situations among potential partners. This MISE 2.0 platform implements a model-driven engineering approach to the design of a service-oriented MIS dedicated to supporting the collaborative situation. This approach is structured in three layers, each providing their own key innovative points: (i) the gathering of individual and collaborative knowledge to provide appropriate collaborative business behaviour (key point: knowledge management, including semantics, exploitation and capitalisation), (ii) deployment of a mediation information system able to computerise the previously deduced collaborative processes (key point: the automatic generation of collaborative workflows, including connection with existing devices or services) (iii) the management of the agility of the obtained collaborative network of organisations (key point: supervision of collaborative situations and relevant exploitation of the gathered data). MISE covers business issues (through BPM), technical issues (through an SOA) and agility issues of collaborative situations (through EDA).
    Keywords: agility, business-process management, collaboration, event-driven architecture, information system, interoperability, mediation, model-driven engineering, service-oriented architecture
  • Event-driven agility of interoperability during the Run-time of collaborative processes

    Références :
    Anne-Marie Barthe-Delanoë, Sébastien Truptil, Frédérick Bénaben et Hervé Pingaud. « Event-driven agility of interoperability during the Run-time of collaborative processes ». In : Decision Support Systems 59 (mars 2014). P. 171--179. ISSN : 0167-9236. DOI : 10.1016/j.dss.2013.11.005.
    The modem business environment tends to involve a large network of heterogeneous people, devices and organizations that engage in collaborative processes among themselves. Given the nature of this type of collaboration and the high degree of interoperability between partner Information Systems, these processes need to be agile in order to respond to changes in context, which may occur at any time during the collaborative situation. The objective is to build a Mediation Information System (MIS), in support of collaborative situations, whose architecture must be (i) built to be relevant to the collaborative situation under consideration, (ii) more easily integrated into the existing systems, and (iii) sufficiently agile, through its awareness of the environment and of process events, and through the way it reacts to events detected as being relevant. To apply agility mechanisms, it is crucial to detect the significant events that will lead to a subsequent evolution of the situation (detection step). Event-Driven Architecture (EDA) is used to design the structure of the part of the system that is in charge of MIS agility. This architecture takes the events into account, manages them and, if needed, uses them to trigger the adaptation of the MIS. We have defined a means to monitor the evolution of the situation. If relevant changes are detected, and if the situation does not evolve in the expected way, an adaptation is proposed. It is concluded that the principles of detection and adaptation, combined with the responsiveness of the system (provided by the automation of transitions), and based on Event Driven Architecture principles, together provide the agility required for collaborative processes. (C) 2013 Elsevier B.V. All rights reserved.
    Keywords: Adaptation, Agility, architecture, business process management, Complex event processing, Decision making, Dynamic change, Interoperability, systems

Projets associés

  • SocEDA

    Débuté le : 01/10/2010 Fini le : 30/09/2013
    Le projet SocEDA (Social Event-Driven Architecture) mobilise les partenaires suivants : Thalès-Communications, Orange, EBM-WebSourcing et INRIA. Ce projet concerne l’exploitation d’outils de gestion complexe d’événements (CEP pour Complex Event Processing) afin de définir un environnement réactif quant à l’occurrence d’événements au sein de systèmes membres de cet environnement.