Technological Advances in microelectronic and telecommunication fields enable the existence of tiny computing units, very small and more efficient. In the context of these new technologies, Wireless Sensor Networks (WSN) have emerged. The main research objective in WSN domain is the development of algorithms and protocols ensuring minimal energy consumption. Most proposed solutions are based on one-layer stack model approach. Recently, other works tend to exploit together many layers in order to optimize energy consumption. In this paper, we propose a Cross-Layer Medium Access Control (CL-MAC) protocol using two adjacent layers (MAC and Network) to economize energy for WSN. The basic idea behind our protocol is to wake-up only nodes belonging to a routing path from the source to the base station (Sink) by exploiting routing information while other nodes leave maintained as long time as possible in a sleep mode. The protocol is modeled using a time Petri net and validated by TiNA tool. The simulation results demonstrate the effectiveness of our proposal in terms of energy consumption and latency.
The main objective of this paper is to secure a cross-layer, energy efficient MAC protocol (CL-MAC) dedicated to delay sensitive wireless sensor networks (WSN) for detecting and avoiding wormhole attack. CL-MAC protocol is the result of our previous research works for which the security aspects have not been taken into consideration during its design stage. To formally prove the importance of the proposed scheme, we provide a theoretical study based on Time Petri Net to analyse some important properties related to the devastating effect of the wormhole attack and its countermeasure on the CL-MAC operations. Also, we perform an experimental evaluation through the simulation using realistic scenarios in order to show the performance of the proposal in terms of energy saving, packets loss ratio and latency. The obtained results indicate the usefulness of the formal study provided in this work when applied in security context and confirm clearly a good performance of the proposed scheme against wormhole attack.
Among recent advances in wireless communication technologies' field, Vehicular Ad-hoc Networks (VANETs) have drawn the attention of both academic and industry researchers due to their potential applications including driving safety, entertainment, emergency applications, and content sharing. V ANET networks are characterized by their high mobile topology changes. Clustering is one of the control schemes used to make this global topology less dynamic. It allows the formation of dynamic virtual backbone used to organize the medium access, to support quality of service and to simplify routing. Mainly, nodes are organized into clusters with at least one cluster head (CH)node that is responsible for the coordination tasks of its cluster.In this sight, our paper introduces a clustering mechanism based for connectivity maintenance in VANET. The proposed solution is experimentally evaluated using NS2 simulator.
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