Clique-first adaptive routes for high performance IoT networks

Yang-Hsin Fan
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引用次数: 1

Abstract

In this work, we propose clique-first adaptive routes (CFAR) for high-performance internet of things (IoT) networks. In the beginning, CFAR classifies IoT to construct a set of clique class. Second, it sets a class of path for each clique. Third, it calculates executing time for first path of first clique to determine each performance. Next, computing execution time for the rest of paths of first clique arranges each performance of IoT. After that, to iterate the previous steps for each clique sets the role of host. While all paths and IoT are evaluated, a high-performance IoT networks can be obtained. The effectiveness of CFAR is proven in experimental results that CFAR achieve 1.98 times to compare average for all benchmarks.
用于高性能物联网网络的团优先自适应路由
在这项工作中,我们提出了用于高性能物联网(IoT)网络的派系优先自适应路由(CFAR)。CFAR首先对IoT进行分类,构造一组团类。其次,它为每个团设置了一个路径类。第三,计算第一个团的第一个路径的执行时间,以确定每个性能。其次,计算第一团剩余路径的执行时间,安排物联网的各项性能。之后,要为每个团迭代前面的步骤,设置主机的角色。在评估所有路径和物联网的同时,可以获得高性能的物联网网络。实验结果证明了CFAR的有效性,在所有基准测试中,CFAR的比较平均值达到1.98次。
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