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引用次数: 100
摘要
DBSCAN是一种著名的基于密度的聚类算法,因为它可以识别任意形状的组并处理有噪声的数据集。然而,随着数据量的不断增加,在单机上运行的DBSCAN算法不得不面临可伸缩性问题。在本文中,我们提出了一种基于Map/ reduce的DBSCAN算法,称为DBSCAN- mr来解决可扩展性问题。在DBSCAN-MR中,输入数据集被分割成更小的部分,然后在Hadoop平台上并行处理。但是,选择不同的分区机制会影响每个节点的执行效率和负载均衡。因此,我们提出了一种基于数据点分布选择分区边界的方法,即PRBP (partition with reduce boundary points)。实验结果表明,采用PRBP设计的DBSCAN-MR具有更高的效率和可扩展性。
Efficient Map/Reduce-Based DBSCAN Algorithm with Optimized Data Partition
DBSCAN is a well-known algorithm for density-based clustering because it can identify the groups of arbitrary shapes and deal with noisy datasets. However, with the increasing amount of data, DBSCAN algorithm running on a single machine has to face the scalability problem. In this paper, we propose a Map/Reduce-based DBSCAN algorithm called DBSCAN-MR to solve the scalability problem. In DBSCAN-MR, the input dataset is partitioned into smaller parts and then parallel processed on the Hadoop platform. However, choosing different partition mechanisms will affect the execution efficiency and load balance of each node. Therefore, we propose a method, partition with reduce boundary points (PRBP), to select partition boundaries based on the distribution of data points. Our experimental results show that DBSCAN-MR with the design of PRBP has higher efficiency and scalability than competitors.
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