A Min-Max Scheduling Load Balanced Approach to Enhance Energy Efficiency and Performance of Mobile ADHOC Networks

Venkatachalapathy K, Sundaranarayana D
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引用次数: 2

Abstract

Energy efficiency and traffic management in Mobile Ad hoc Networks (MANETs) is a complex process due to the self-organizing nature of the nodes. Quality of service (QoS) of the network is achieved by addressing the issues concerned with load handling and energy conservation. This manuscript proposes a min-max scheduling (M2S) algorithm for energy efficiency and load balancing (LB) in MANETs. The algorithm operates in two phases: neighbor selection and load balancing. In state selection, the transmission of the node is altered based on its energy and packet delivery factor. In the load balancing phase, the selected nodes are induced by queuing and scheduling the process to improve the rate of load dissemination. The different processes are intended to improve the packet delivery factor (PDF) by selecting appropriate node transmission states. The transmission states of the nodes are classified through periodic remaining energy update; the queuing and scheduling process is dynamically adjusted with energy consideration. A weight-based normalized function eases neighbor selection by determining the most precise neighbor that satisfies transmission and energy constraints. The results of the proposed M2SLB (Min-Max Scheduling Load Balancing) proves the consistency of the proposed algorithm by improving the network throughput, packet delivery ratio and minimizing delay and packet loss by retaining higher remaining energy.
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一种提高移动ADHOC网络能效和性能的最小-最大调度负载均衡方法
由于移动自组织网络(manet)节点的自组织特性,其能源效率和流量管理是一个复杂的过程。网络的服务质量(QoS)是通过解决与负载处理和节能有关的问题来实现的。本文提出了一种最小-最大调度(M2S)算法,用于manet中的能源效率和负载平衡(LB)。该算法分为邻居选择和负载均衡两个阶段。在状态选择中,根据节点的能量和分组传输因子改变节点的传输。在负载均衡阶段,通过对进程进行排队和调度来诱导节点的选择,以提高负载的分发率。不同的进程旨在通过选择适当的节点传输状态来提高分组传输系数(PDF)。通过定期剩余能量更新对节点的传输状态进行分类;考虑能量因素,动态调整排队和调度过程。基于权重的归一化函数通过确定满足传输和能量约束的最精确邻居来简化邻居选择。本文提出的最小-最大调度负载均衡(Min-Max Scheduling Load Balancing, M2SLB)算法的结果证明了该算法的一致性,该算法通过保留更高的剩余能量,提高了网络吞吐量和分组分发率,最大限度地减少了延迟和丢包。
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