Yousra Ben Aissa scite author profile

Yousra Ben Aissa

3Publications

9Citation Statements Received

87Citation Statements Given

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100

Affiliations

University of Biskra, Jinan University, University of Carthage

Publications

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On Feasibility of Multichannel Reconfigurable Wireless Sensor Networks Under Real-Time and Energy Constraints

Aissa

Bachir

Khalgui

et al. 2019

IEEE Trans. Syst. Man Cybern, Syst.

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This paper deals with the medium between two reconfigurable sensor nodes characterized by radio interfaces that support multiple channels for exchanging real-time messages under energy constraints, these constraints are violated if the consumed energy in transmission is higher than the remaining quantity of energy. A reconfiguration, i.e., any addition or removal of tasks in devices and consequently of messages on the medium, can cause the violation of real-time or energy constraints at run-time. To achieve a feasible scheduling in time (i.e., message deadlines will be respected) and energy (i.e., there is available energy) on the medium, we propose new dynamic solutions: Balance, Dilute, and a combination of them to manage any addition or removal of messages. The proposed approach utilizes the energy harvesting techniques and PowerControl algorithm to reduce the nonharvested consumed energy. The proposed strategies achieve significant improvement over existing methods and provide the highest percentage of adding messages, with a lower average in response time and energy consumption. They reach a percentage of success in adding the highest priority messages while meeting deadlines up to 85%. This article has been accepted for inclusion in a future issue of this journal. Content is final as presented, with the exception of pagination.

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QCOF: New RPL Extension for QoS and Congestion-Aware in Low Power and Lossy Network

Aissa

Grichi

Khalgui

et al. 2019

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Low power and lossy networks (LLNs) require a routing protocol under real-time and energy constraints, congestion aware and packet priority. Thus, Routing Protocol for Low power and lossy network (RPL) is recommended by Internet Engineering Task force (IETF) for LLN applications. In RPL, nodes select their optimal paths towards their preferred parents after meeting routing metrics that are injected in the objective function (OF). However, RPL did not impose any routing metric and left it open for implementation. In this paper, we propose a new RPL objective function which is based on the quality of service (QoS) and congestion-aware. In the case paths fail, we define new RPL control messages for enriching the network by adding more routing nodes. Extensive simulations show that QCOF achieves significant improvement in comparison with the existing objective functions, and appropriately satisfies real-time applications under QoS and network congestion.

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Genetic Algorithm-based Optimal Wireless Sensor Network Deployment

Aissa

Bouaziz

Mohammedi

2022

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Yousra Ben Aissa

On Feasibility of Multichannel Reconfigurable Wireless Sensor Networks Under Real-Time and Energy Constraints

QCOF: New RPL Extension for QoS and Congestion-Aware in Low Power and Lossy Network

Genetic Algorithm-based Optimal Wireless Sensor Network Deployment

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