边缘计算环境下基于局部敏感哈希的改进k-NN异常检测框架

IF 0.9 4区计算机科学 Q4 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE

Intelligent Data Analysis Pub Date : 2023-10-06 DOI:10.3233/ida-216461

Cong Gao, Yuzhe Chen, Yanping Chen, Zhongmin Wang, Hong Xia

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引用次数: 0

摘要

无线传感器网络在各个领域的大规模部署带来了巨大的效益。随着传感器数据量的不断增加，传统的数据采集和处理方案逐渐无法满足实际场景的需求。鉴于数据质量对数据挖掘和价值提取至关重要，本文提出了一种结合云计算和边缘计算的分布式异常检测框架。该框架由三个主要部分组成:k近邻、位置敏感散列和余弦相似度。传统的k近邻算法通过局部敏感哈希在计算量和处理时间上进行了改进。通过结合k近邻和局域敏感散列给出初始异常检测结果。为了进一步提高异常检测的准确性，提出了基于余弦相似度的二次异常检测方法。进行了大量的实验来评估我们的建议的性能。六种常用的方法用于比较。实验结果表明，该模型在精度、时延和能耗方面具有优势。

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An improved k-NN anomaly detection framework based on locality sensitive hashing for edge computing environment

Large deployment of wireless sensor networks in various fields bring great benefits. With the increasing volume of sensor data, traditional data collection and processing schemes gradually become unable to meet the requirements in actual scenarios. As data quality is vital to data mining and value extraction, this paper presents a distributed anomaly detection framework which combines cloud computing and edge computing. The framework consists of three major components: k-nearest neighbors, locality sensitive hashing, and cosine similarity. The traditional k-nearest neighbors algorithm is improved by locality sensitive hashing in terms of computation cost and processing time. An initial anomaly detection result is given by the combination of k-nearest neighbors and locality sensitive hashing. To further improve the accuracy of anomaly detection, a second test for anomaly is provided based on cosine similarity. Extensive experiments are conducted to evaluate the performance of our proposal. Six popular methods are used for comparison. Experimental results show that our model has advantages in the aspects of accuracy, delay, and energy consumption.

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来源期刊

Intelligent Data Analysis 工程技术-计算机：人工智能

CiteScore

2.20

自引率

5.90%

发文量

审稿时长

3.3 months

期刊介绍： Intelligent Data Analysis provides a forum for the examination of issues related to the research and applications of Artificial Intelligence techniques in data analysis across a variety of disciplines. These techniques include (but are not limited to): all areas of data visualization, data pre-processing (fusion, editing, transformation, filtering, sampling), data engineering, database mining techniques, tools and applications, use of domain knowledge in data analysis, big data applications, evolutionary algorithms, machine learning, neural nets, fuzzy logic, statistical pattern recognition, knowledge filtering, and post-processing. In particular, papers are preferred that discuss development of new AI related data analysis architectures, methodologies, and techniques and their applications to various domains.