Research on Hybrid Data Clustering Algorithm for Wireless Communication Intelligent Bracelets

IF 2.3 4区计算机科学 Q2 COMPUTER SCIENCE, HARDWARE & ARCHITECTURE

Mobile Networks & Applications Pub Date : 2023-09-19 DOI:10.1007/s11036-023-02249-w

Jian-zhao Sun, Kun Yang, Marcin Woźniak

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Abstract

Abstract Wireless communication smart bracelet data include motion data, sleep time data, heart rate and blood pressure data and positioning data, etc. These data have diversity and high complexity, and there are interconnections or interactions between the data, which have high clustering difficulty. To this end, a new data clustering algorithm is studied for wireless communication smart bracelets. The K-medoids algorithm is used to calculate the intra-cluster, inter-cluster, or overall similarity to complete the initial clustering of the bracelet data. Setting the clustering evaluation index can determine the optimal number of clusters. The data objects that are closely surrounded and relatively dispersed are selected as the initial clustering centers and combined with the new index IXB to complete the improvement of the data clustering algorithm. The test results show that the accuracy, recall, and F1 of the research algorithm for clustering the heart rate monitoring dataset, temperature monitoring dataset, energy consumption dataset, and sleep monitoring dataset are higher than 97%, which indicates that the data clustering effect of the algorithm is good.

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无线通信智能手环混合数据聚类算法研究

无线通信智能手环数据包括运动数据、睡眠时间数据、心率和血压数据以及定位数据等。这些数据具有多样性和高复杂性，数据之间存在着相互联系或相互作用，具有较高的聚类难度。为此，研究了一种新的无线通信智能手环数据聚类算法。使用K-medoids算法计算聚类内、聚类间或整体相似度，完成手环数据的初始聚类。通过设置聚类评价指标，确定最优聚类数量。选取被紧密包围且相对分散的数据对象作为初始聚类中心，并结合新的索引IXB完成对数据聚类算法的改进。测试结果表明，研究算法对心率监测数据集、温度监测数据集、能耗数据集和睡眠监测数据集的聚类准确率、召回率和F1均高于97%，表明算法的数据聚类效果较好。

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来源期刊

Mobile Networks & Applications 工程技术-电信学

CiteScore

9.50

自引率

5.30%

发文量

198

审稿时长

6-12 weeks

期刊介绍： Mobile Networks and Applications'' technical scope covers mobility solutions that provide communication technologies and mobile services, which enables users to access resources and share information freely, anytime anywhere. The emerging symbiosis of wireless communication, the ever more powerful mobile devices, with the back-end resources of the cloud, making the user fully location independent. The journal addresses the convergence of mobility, computing and information organization, services and management. In approving Special Issues, the Journal places an equal emphasis on the various areas of nomadic computing, data management, related software and hardware technologies, and mobile user services, alongside more `classical'' topics in wireless and mobile networking. The journal documents practical and theoretical results which make a fundamental contribution.