Fault Tolerance Model for Efficient Actor Recovery Paradigm in WSAN

R. Mahjoub, K. Elleithy
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Abstract

Wireless sensor and actor networks (WSAN) is an area where sensors and actors collaborate to sense, handle and perform tasks in real-time. Thus, reliability is an important factor. Due to the natural of WSAN, actor nodes are open to failure. Failure of actor nodes degrades the network performance and may lead to network disjoint. Thus, fault tolerance techniques should be applied to insure the efficiency of the network. In an earlier work, the authors proposed an efficient actor recovery paradigm (EAR) for WSAN which handles the critical actor node failure and recovery while maintaining QoS. EAR is supported with node monitoring and critical node detection (NMCND), network integration and message forwarding (NIMF), priority-based routing for node failure avoidance (PRNFA) and backup selection algorithms. In this article, the authors extend the work by adding a fault tolerance mathematical model. By evaluating the model, EAR shows to manage fault tolerance in deferent levels. To evaluate the effectiveness, the EAR fault tolerance is evaluated by simulation using OMNET++ Simulation. In addition, EAR reliability is measured and compared with RNF, DPCRA, ACR, and ACRA.
WSAN中高效参与者恢复范式的容错模型
无线传感器和参与者网络(WSAN)是一个传感器和参与者协作以实时感知、处理和执行任务的领域。因此,可靠性是一个重要的因素。由于WSAN的特性,参与者节点很容易出现故障。参与者节点故障会降低网络性能,并可能导致网络脱节。因此,必须采用容错技术来保证网络的效率。在早期的工作中,作者提出了一种高效的WSAN参与者恢复范式(EAR),该范式在保持QoS的同时处理关键参与者节点的故障和恢复。EAR支持节点监控和关键节点检测(NMCND)、网络集成和消息转发(NIMF)、基于优先级的节点故障避免路由(PRNFA)和备份选择算法。在本文中,作者通过添加容错数学模型扩展了这项工作。通过对模型的评估,EAR显示出对不同级别容错的管理能力。为了评估其有效性,利用omnet++仿真软件对EAR的容错性进行了仿真评估。此外,测量EAR的信度,并与RNF、DPCRA、ACR和ACRA进行比较。
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