基于深度学习的海量数据处理和多维数据库管理

IF 1.1 Q3 COMPUTER SCIENCE, THEORY & METHODS
Haijie Shen, Y. Li, Xinzhi Tian, Xiaofan Chen, Caihong Li, Qian Bian, Zhenduo Wang, Weihua Wang
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引用次数: 2

摘要

随着物联网的快速发展,对海量数据处理技术的要求越来越高。由于物联网数据的实时性、海量性、多态性、异构性等特点,传统的计算机数据处理能力已经无法为海量数据处理的今天提供快速、简单、高效的数据分析和处理。物联网中不同类型子系统的海量异构数据需要统一处理和存储,因此海量数据处理方法要求能够集成多个不同的网络、多个数据源、异构海量数据,并能够对这些数据进行处理。因此,本文提出基于深度学习的海量数据处理和多维数据库管理,以满足当代社会对海量数据处理的需求。本文深入研究了海量数据处理的基本技术方法,包括MapReduce技术、并行数据技术、基于分布式内存数据库的数据库技术、基于云计算技术的分布式实时数据库技术,构建了基于深度学习的海量数据融合算法。该模型和基于深度学习的多维数据库多维在线分析处理模型对基于深度学习的多维数据库的性能、可扩展性、负载均衡、数据查询等方面进行了分析。结果表明,多维数据库查询数据的准确率高达100%,平均数据查询时间的准确率仅为0.0053 s,远低于一般数据库查询时间。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Mass data processing and multidimensional database management based on deep learning
Abstract With the rapid development of the Internet of Things, the requirements for massive data processing technology are getting higher and higher. Traditional computer data processing capabilities can no longer deliver fast, simple, and efficient data analysis and processing for today’s massive data processing due to the real-time, massive, polymorphic, and heterogeneous characteristics of Internet of Things data. Mass heterogeneous data of different types of subsystems in the Internet of Things need to be processed and stored uniformly, so the mass data processing method is required to be able to integrate multiple different networks, multiple data sources, and heterogeneous mass data and be able to perform processing on these data. Therefore, this article proposes massive data processing and multidimensional database management based on deep learning to meet the needs of contemporary society for massive data processing. This article has deeply studied the basic technical methods of massive data processing, including MapReduce technology, parallel data technology, database technology based on distributed memory databases, and distributed real-time database technology based on cloud computing technology, and constructed a massive data fusion algorithm based on deep learning. The model and the multidimensional online analytical processing model of the multidimensional database based on deep learning analyze the performance, scalability, load balancing, data query, and other aspects of the multidimensional database based on deep learning. It is concluded that the accuracy of multidimensional database query data is as high as 100%, and the accuracy of the average data query time is only 0.0053 s, which is much lower than the general database query time.
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来源期刊
Open Computer Science
Open Computer Science COMPUTER SCIENCE, THEORY & METHODS-
CiteScore
4.00
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0.00%
发文量
24
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25 weeks
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