Christophe Jouvray scite author profile

Christophe Jouvray

5Publications

74Citation Statements Received

61Citation Statements Given

How they've been cited

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Affiliations

Trialog (France), CEA LIST, CEA Saclay

Publications

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Enforcing S&D Pattern Design in RCES with Modeling and Formal Approaches

Hamid

Gürgens

Jouvray

et al. 2011

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Abstract. The requirement for higher security and dependability of systems is continuously increasing even in domains not traditionally deeply involved in such issues. Yet, evolution of embedded systems towards devices connected via Internet, wireless communication or other interfaces requires a reconsideration of secure and trusted embedded systems engineering processes. In this paper, we propose an approach that associates model driven engineering (MDE) and formal validation to build security and dependability (S&D) patterns for trusted RCES applications. The contribution of this work is twofold. On the one hand, we use model-based techniques to capture a set of artifacts to encode S&D patterns. On the other hand, we introduce a set of artifacts for the formal validation of these patterns in order to guarantee their correctness. The formal validation in turn follows the the MDE process and thus links concrete validation results to the S&D requirements identified at higher levels of abstraction.

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People-Centric Internet of Things—Challenges, Approach, and Enabling Technologies

Boavida

Kliem

Renner

et al. 2015

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Designing Fault-Tolerant Component Based Applications with a Model Driven Approach

Hamid

Radermacher

Lanusse

et al. 2008

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Abstract. The requirement for higher reliability and availability of systems is continuously increasing even in domains not traditionally strongly involved in such issues. Solutions are expected to be efficient, flexible, reusable on rapidly evolving hardware and of course at low cost. Model driven approaches can be very helpful for this purpose. In this paper, we propose a study associating modeldriven technology and component-based development. This work is illustrated by the realization of a use case from aerospace industry that has fault-tolerance requirements: a launch vehicle.UML based modeling is used to capture application structure and related nonfunctional requirements thanks to the profiles CCM (CORBA Component Model) and QoS&FT (Quality of Service and Fault Tolerance). The application model is enriched with infrastructure component dedicated to fault-tolerance. From this model we generate CCM descriptor files which in turns are used to build bootcode (static deployment) which instantiates, configures and connects components. Within this process, component replication and FT properties are declaratively specified at model level and are transparent for the component implementation.

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Model-based security and dependability patterns in RCES

Hamid

Desnos

Grepet

et al. 2010

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Flex‐eWare: a flexible model driven solution for designing and implementing embedded distributed systems

et al. 2011

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SUMMARY The complexity of modern embedded systems increases as they incorporate new concerns such as distribution and mobility. These new features need to be considered as early as possible in the software development life cycle. Model driven engineering promotes an intensive use of models and is now widely seen as a solution to master the development of complex systems such as embedded ones. Component‐based software engineering is another major trend that gains acceptance in the embedded world because of its properties such as reuse, modularity, and flexibility. This article proposes the Flex‐eWare component model (FCM) for designing and implementing modern embedded systems. The FCM unifies model driven engineering and component‐based software engineering and has been evaluated in several application domains with different requirements: wireless sensor networks, distributed client/server applications, and control systems for electrical devices. This approach highlights a new concept: flexibility points that arise at several stages of the development process, that is, in the model (design phase), in the execution platform, and during the execution itself. This flexibility points are captured with model libraries that can extend the FCM. Copyright © 2011 John Wiley & Sons, Ltd.

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