MDEFC:利用基于模糊聚类的修正差分进化法自动识别人类活动

IF 3.1 3区 计算机科学 Q2 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS
Abdulaziz Alblwi
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引用次数: 0

摘要

在当前情况下,自动人类活动识别(HAR)是一个新兴的研究课题,尤其是在医疗保健、人机交互(HCI)和智能家居等应用领域。通过查阅现有文献,大多数人类活动识别(HAR)方法在利用未见的物联网(IoT)数据进行训练和测试时,性能有限。为了在 HAR 中实现更高的识别性能,本文提出了一种新的聚类方法,名为基于模糊聚类的修正差分进化(MDEFC)。所提出的 MDEFC 方法采用了渐近终止规则和新的微分权重来增强终止条件,并提高了该方法探索目标函数解空间的能力。大量的实证分析表明,所提出的 MDEFC 方法利用个体的空间和时间特征,在最短的训练时间内取得了令人印象深刻的识别结果。在实时数据集和在线无线传感器数据挖掘(WISDM)v1.1 数据集上测试了所提出的 MDEFC 方法的有效性。结果表明,所提出的 MDEFC 方法在 WISDM v1.1 数据集上平均获得了 99.73 % 的精确度和 99.86 % 的召回率。同样,拟议的 MDEFC 方法在实时数据集上平均获得了 93.46 % 的 f1-measure、94.60 % 的召回率和 93.88 % 的精确率。这些实验结果明显高于传统的 HAR 方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
MDEFC: Automatic recognition of human activities using modified differential evolution based fuzzy clustering method

In the present scenario, automatic Human Activity Recognition (HAR) is an emerging research topic, particularly in the applications of healthcare, Human Computer Interaction (HCI), and smart homes. By reviewing existing literature, the majority of the HAR methods achieved limited performance, while trained and tested utilizing unseen Internet of Things (IoT) data. In order to achieve higher recognition performance in the context of HAR, a new clustering method named Modified Differential Evolution based Fuzzy Clustering (MDEFC) is proposed in this article. The proposed MDEFC method incorporates an asymptotic termination rule and a new differential weight for enhancing the termination condition and improving this method’s ability in exploring the solution space of the objective function. The extensive empirical analysis states that the proposed MDEFC method achieved impressive recognition results with minimal training time by using both spatial and temporal features of the individual. The proposed MDEFC method’s effectiveness is tested on a real time dataset and an online Wireless Sensor Data Mining (WISDM) v1.1 dataset. The result findings demonstrate that the proposed MDEFC method averagely obtained 99.73 % of precision and 99.86 % of recall on the WISDM v1.1 dataset. Similarly, the proposed MDEFC method averagely obtained 93.46 % of f1-measure, 94.60 % of recall, and 93.88 % of precision on the real time dataset. These obtained experimental results are significantly higher in comparison to the traditional HAR methods.

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来源期刊
Journal of Computational Science
Journal of Computational Science COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS-COMPUTER SCIENCE, THEORY & METHODS
CiteScore
5.50
自引率
3.00%
发文量
227
审稿时长
41 days
期刊介绍: Computational Science is a rapidly growing multi- and interdisciplinary field that uses advanced computing and data analysis to understand and solve complex problems. It has reached a level of predictive capability that now firmly complements the traditional pillars of experimentation and theory. The recent advances in experimental techniques such as detectors, on-line sensor networks and high-resolution imaging techniques, have opened up new windows into physical and biological processes at many levels of detail. The resulting data explosion allows for detailed data driven modeling and simulation. This new discipline in science combines computational thinking, modern computational methods, devices and collateral technologies to address problems far beyond the scope of traditional numerical methods. Computational science typically unifies three distinct elements: • Modeling, Algorithms and Simulations (e.g. numerical and non-numerical, discrete and continuous); • Software developed to solve science (e.g., biological, physical, and social), engineering, medicine, and humanities problems; • Computer and information science that develops and optimizes the advanced system hardware, software, networking, and data management components (e.g. problem solving environments).
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