Community detection in Social Networks is associated with finding and grouping the most similar nodes inherent in the network. These similar nodes are identified by computing tie strength. Stronger ties indicates higher proximity shared by connected node pairs. This work is motivated by Granovetter's argument that suggests that strong ties lies within densely connected nodes and the theory that community cores in real-world networks are densely connected. In this paper, we have introduced a novel method called \emph{Disjoint Community detection using Cascades (DCC)} which demonstrates the effectiveness of a new local density based tie strength measure on detecting communities. Here, tie strength is utilized to decide the paths followed for propagating information. The idea is to crawl through the tuple information of cascades towards the community core guided by increasing tie strength. Considering the cascade generation step, a novel preferential membership method has been developed to assign community labels to unassigned nodes. The efficacy of $DCC$ has been analyzed based on quality and accuracy on several real-world datasets and baseline community detection algorithms.
翻译:社会网络中的社区探测与查找和分组网络内固有的最相似节点有关。 这些类似的节点通过计算领带强度来识别。 更紧密的纽带显示连接节点对等的距离比较近。 这项工作的动机是Granovter的论点, 这表明紧密相连的节点是紧密相连的节点, 以及现实世界网络中的社区核心是紧密相连的理论。 在本文中, 我们采用了一种新颖的方法, 名为 \ emph{ Disjoint 社区探测, 使用 Cascades (DCC)}, 这种方法显示了基于检测社区绑带强度测量的新本地密度测量的有效性。 在此, 使用绑带强度来决定传播信息所遵循的路径 。 其想法是, 通过连带强度的不断增强, 通过连带强度引导的连带向社区核心的轨迹信息 。 考虑到级联的生成步骤, 开发了一种新的优先成员资格方法, 将社区标签指定为未指定的节点。 $DCC$的效率是根据几个真实世界数据集和基线社区检测算法的质量和准确度分析的。
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