基于最优分布式节能调度学习自动机算法的Ad Hoc无线传感器网络拓扑维护

Shekufeh Shafeie, M. Meybodi
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摘要

无线自组织传感器网络中节点的调度是使它们在休眠和活动模式之间交替进行。如果将这种调整所有节点的唤醒/休眠时间的过程,即拓扑管理机制保持在最优状态,可以进一步节省能量,这将直接影响到网络生命周期的延长。因此,本文提出了一种基于学习自动机的多跳自组织无线网络分布式节能协调算法,该算法在不显著降低网络容量、连通性等服务质量的前提下,使网络中所有配备学习自动机的节点不需要彼此同步。学习自动机的能力,如低计算负载,在具有模糊信息的分布式环境中的可用性,以及通过低环境反馈对变化的适应性,都是可以为节点提供上述最优方式的因素;并在自组织无线网络中更好地与本地技术相适应。提出的协议SpanLAQ包括协调器宣布和协调器退出两个阶段,这两个阶段基于学习自动机来确保公平性,并对节点是休眠还是作为协调器加入转发骨干做出本地决策。因此,与其他类似的协议(如Span)和没有任何拓扑管理协议相比,使用随时间推移的学习自动机可以减少能耗,并改善具有节能模式的802.11网络的SpanLAQ协议中的网络寿命。在实际能量模型下的仿真结果也表明了上述结果,并且在容量、连通性和通信延迟方面有所改善。
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Topology maintenance of Ad Hoc wireless sensor networks with an optimum distributed power saving scheduling learning automata based algorithm
The scheduling of nodes in a wireless Ad Hoc Sensor network is getting them to alternate between the sleeping and active mode. If this process of adjusting the wake/sleep schedule of all nodes that is, a topology management mechanism, is maintained in an optimal manner, further energy can be saved, which will have a direct impact on prolonging the lifetime of the network. So, in this paper a distributed power saving coordination algorithm for multi-hop ad hoc wireless networks based on learning automata without significantly diminishing the quality of services of the network such as capacity or connectivity of the network is proposed such that all nodes in the network that are equipped with learning automata don't need to be synchronized with each other. Learning automata abilities such as low computational load, usability in distributed environments with ambiguous information, and adaptability to changes via low environmental feedbacks are all, factors that can provide the mentioned optimal manner for nodes; and cause better fitness with local techniques in ad hoc wireless networks. The proposed protocol, SpanLAQ, consists of two phases: coordinator announcement and coordinator withdrawal which are based on learning automata to ensure fairness, and to make local decisions on whether a node is going to sleep or joining to a forwarding backbone as a coordinator. So, using learning automata with passing of time causes a decrease in energy consumption and an improvement of the network lifetime in SpanLAQ protocol with an 802.11 network in power saving mode, in comparison to other similar protocols such as Span and without any topology management protocols. Simulation results with a practical energy model also show that the above result is being achieved with some improvements in capacity, connectivity and communication latency.
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