Multilinear principal component analysis-based tensor decomposition for fabric weave pattern recognition from high-dimensional streaming data

IF 3.7 4区 计算机科学 Q2 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE Pattern Analysis and Applications Pub Date : 2024-08-13 DOI:10.1007/s10044-024-01318-4
Abdullah Al Mamun, Md Imranul Islam, Md Abu Sayeed Shohag, Wael Al-Kouz, KM Abdun Noor
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Abstract

Modern textile industry integrates video sensors with automated fabric reeling systems for real-time fabric weave pattern inspection. This automation system lessens the human-vision-based cognitive load and improves fabric weave pattern inspection work. However, this automation system poses a unique challenge, particularly when dealing with high-dimensional streaming data from highly precision digital microscope cameras. The complexity arises from the continuous acquisition and management of such high-dimensional streaming video data. Considering the challenges posed by dimensionality reduction in high-dimensional data, this study employs multilinear principal component analysis (MPCA)-based tensor decomposition, a statistical technique designed to effectively reduce high-dimensional datasets into low-dimensional features. This paper proposes an innovative method for fabric weave pattern recognition (FWPR) by leveraging MPCA-based tensor decomposition to extract low-dimensional features from the high-dimensional fabric’s surface texture descriptor tensor (STDT). This proposed method replicates fabric pattern monitoring in automated fabric reeling systems by integrating a digital microscope camera to capture high-dimensional streaming video data from fabric surface texture features. Subsequently high-dimensional video data is converted into sequential image frames representing different fabric weave patterns. These image frames are processed with local binary pattern (LBP) and gray-level co-occurrence matrix (GLCM) methods to aggregate fabric’s surface pattern features and construct the high-dimensional STDT. This STDT is subsequently decomposed into low-dimensional features by leveraging MPCA, resulting in an impressive 99.99% reduction in dimension. A supervised machine learning method utilizes the extracted low-dimensional features to enable FWPR, demonstrating superiority of the proposed method over the benchmark methods in evaluation.

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基于多线性主成分分析的张量分解,从高维流数据中识别织物编织图案
现代纺织业将视频传感器与自动卷布系统集成,用于实时检测织物织纹。这种自动化系统减轻了人类基于视觉的认知负荷,改善了织物织纹检测工作。然而,这种自动化系统带来了独特的挑战,尤其是在处理来自高精度数码显微摄像机的高维流数据时。这种复杂性来自于对此类高维流视频数据的持续采集和管理。考虑到高维数据降维带来的挑战,本研究采用了基于多线性主成分分析(MPCA)的张量分解技术,这是一种旨在有效地将高维数据集还原为低维特征的统计技术。本文利用基于多线性主成分分析的张量分解技术,从高维织物表面纹理描述张量(STDT)中提取低维特征,提出了一种创新的织物编织模式识别(FWPR)方法。该方法通过集成数字显微镜摄像头,从织物表面纹理特征中捕捉高维流视频数据,复制了自动卷布系统中的织物图案监测功能。随后,高维视频数据被转换成代表不同织物编织模式的连续图像帧。这些图像帧通过局部二值模式(LBP)和灰度级共现矩阵(GLCM)方法进行处理,以聚合织物表面图案特征并构建高维 STDT。随后,利用 MPCA 将 STDT 分解为低维特征,从而显著降低了 99.99% 的维度。一种有监督的机器学习方法利用提取的低维特征来实现 FWPR,在评估中证明了所提出的方法优于基准方法。
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来源期刊
Pattern Analysis and Applications
Pattern Analysis and Applications 工程技术-计算机:人工智能
CiteScore
7.40
自引率
2.60%
发文量
76
审稿时长
13.5 months
期刊介绍: The journal publishes high quality articles in areas of fundamental research in intelligent pattern analysis and applications in computer science and engineering. It aims to provide a forum for original research which describes novel pattern analysis techniques and industrial applications of the current technology. In addition, the journal will also publish articles on pattern analysis applications in medical imaging. The journal solicits articles that detail new technology and methods for pattern recognition and analysis in applied domains including, but not limited to, computer vision and image processing, speech analysis, robotics, multimedia, document analysis, character recognition, knowledge engineering for pattern recognition, fractal analysis, and intelligent control. The journal publishes articles on the use of advanced pattern recognition and analysis methods including statistical techniques, neural networks, genetic algorithms, fuzzy pattern recognition, machine learning, and hardware implementations which are either relevant to the development of pattern analysis as a research area or detail novel pattern analysis applications. Papers proposing new classifier systems or their development, pattern analysis systems for real-time applications, fuzzy and temporal pattern recognition and uncertainty management in applied pattern recognition are particularly solicited.
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