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引用次数: 0
摘要
NDN (Named Data Network)网络是一种将网络通信从向目的地址发送数据包转变为以名称标识的数据(内容)检索的未来网络。在转发兴趣时,需要一种有效的转发策略来选择下一跳。NDN是一种以数据为中心的网络,可以减少网络负载(特别是在服务器端),近年来使用机器学习(ML)得到了广泛的发展。使用ML的主要因素是检查非常大的数据,例如转发信息库(FIB)表中的数据。本研究的目的是对来到NDN网络的兴趣面孔进行分类,并发现这些兴趣会被转发到更近的节点(生产者)。机器学习中的分类技术需要基于几个相互关联的特征(变量)对人脸进行分类。已经进行的分类结果表明,随机森林分类模型的准确率最高,达到85,77%。
Classification of interfaces on Named Data Networking Using machine learning
NDN (Named Data Network) network is the future network that transforms network communication from sending packets to the destination address to retrieving data (content) identified by name. A forwarding strategy is needed to select the next hop efficiently when forwarding interest. NDN, a data-centric network that can reduce network load (especially on the server side), has been widely developed using Machine Learning (ML) recently. The main factor in using ML is to examine very large data, for example, data in the Forwarding Information Base (FIB) table. The purpose of this study is to classify faces for interests that come to the NDN network and find out that the interests will be forwarded to closer nodes (producers). This research classifies several faces of FIB Classification techniques in Machine Learning are needed to classify the faces based on several interrelated features (variables). The results of the classification that has been carried out, show that the Random Forest classification model has the highest level of accuracy, which is 85,77%.
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