Melek Charfi scite author profile

Melek Charfi

2Publications

2Citation Statements Received

23Citation Statements Given

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Affiliations

CentraleSupélec, University of Paris-Saclay, Institut Polytechnique de Paris

Publications

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Networking Functions for Wireless Sensor Network Applications: an SDN-based Approach

Charfi

Mouradian

2020

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Wireless Sensor Networks (WSN) are considered to be a key enabler towards the Internet of Things (IoT) concept and one of its main underlying technologies. Applications built on top of IoT infrastructures such as WSNs share a set of common functions that concern not only data management such as data collection, dissemination or aggregation, but also classical networking functions, such as routing or addressing. Even though application deployment is becoming more feasible, it can still be a complex process especially in the presence of vertical solutions. WSNs should, therefore, be more flexible in order to facilitate the development of efficient applications. A promising networking paradigm which can help achieve such a requirement is the Software-Defined Networking (SDN) concept which decouples the network data plane from the control plane. To allow multiple applications to share and reuse common networking functions, we propose to implement them as SDN reusable building blocks and to instantiate and customize them through SDN rules. On the other hand, we provide a rigorous definition of these functions and of their relationships in order to make them reusable to efficiently develop the applications. We consider the smart city as a typical WSN/IoT domain of applications. Our approach aims at facilitating the development, use and management of such functions in a WSN and thus of IoT applications.

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Performance analysis of Ethernet Powerlink protocol: Application to a new lift system generation

Soury¹,

Charfi²,

Genon-Catalot³

et al. 2015

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International audienceTo ensure control, present lifts use the Controller Area Network (CAN) bus for transmitting commands between components. Although it is largely adopted in the industrial process, CAN is not able to guarantee a sufficient throughput to transmit multimedia data or to meet the requirements of some safety standards. In this paper, we present a transition case from electrical/electromechanical components to a networked control system. The main element we focus on in the lift system is the safety chain. We propose to build the lift communication system around real-time Ethernet for more efficiency, smartness and safety. Furthermore, the use of the openSAFETY protocol as a safety layer over the real-time Ethernet allows the achievement of the required Safety Integrity Level (SIL). This adopted solution should meet the adopted standard IEC 61508 requirements

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Melek Charfi

Networking Functions for Wireless Sensor Network Applications: an SDN-based Approach

Performance analysis of Ethernet Powerlink protocol: Application to a new lift system generation

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