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引用次数: 5
摘要
聚类技术是物联网(IoT)网络的最优配置。它提供了几个好处,比如节约能源、减少延迟和可伸缩性。与此同时,能源消耗仍然是一个主要问题。在这方面,我们引入了一种新的基于自组织映射算法(SOM)的聚类方法,称为Energy Efficient SOM (EESOM),它通过能量感知簇头(CH)旋转策略来意识到能量消耗,该策略考虑了簇节点的当前能量及其与获胜神经元的距离,以确定最佳的CH。动态CH旋转避免了簇中连续CHs的能量消耗不平衡,减少了它们的过早死亡。当选择到获胜神经元距离最小的CH时,将选择到成员节点欧几里德距离最小的CH。因此,成员将收集到的数据发送到他们的CH所需的能量减少了,并且可以延长网络的生命周期。仿真结果表明,EESOM有效地降低了网络能耗,延长了网络寿命。
An Energy Efficient Self Organizing Map Based Clustering Protocol For IoT Networks
The clustering technique is an optimal configuration for the Internet of Things (IoT) networks. It offers several benefits, such as energy conservation, latency reduction, and scalability. Meanwhile, energy consumption remains a major concern. In this regard, we introduce a new clustering approach based on the Self-Organizing Map algorithm (SOM), called Energy Efficient SOM (EESOM), conscious of energy consumption with an energy-aware cluster-head (CH) rotation policy that considers the current energy of cluster nodes and their distance from the winning neuron to determine the best CH. The dynamic CH-rotation avoids unbalanced energy consumption for the successive CHs in the cluster and reduces their premature death. When choosing a CH with the minimum distance to the winning neuron, the one with the minimum Euclidean distance to the member nodes will be elected. Consequently, the energy needed by members to send the collected data to their CH is reduced, and the lifetime of the network can be extended. Simulation results indicate that EESOM effectively reduces energy consumption and spreads the network lifespan.
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