Fabric Defect Detection Using A Ga Tuned Wavelet Filter

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Fabric Defect Detection Using A Ga Tuned Wavelet Filter

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Author :
language : en
Publisher:
Release Date : 2003

Fabric Defect Detection Using A Ga Tuned Wavelet Filter written by and has been published by this book supported file pdf, txt, epub, kindle and other format this book has been release on 2003 with categories.

Keywords: Wavelet Filter, Defect Detection, Genetic Algorithm.

Fabric Defect Detection Using A Ga Tuned Wavelet Filter

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Author :
language : en
Publisher:
Release Date : 2003

Fabric Defect Detection Using A Ga Tuned Wavelet Filter written by and has been published by this book supported file pdf, txt, epub, kindle and other format this book has been release on 2003 with categories.

The purpose of this research project is to show that a computerized system based on image processing software is capable of identifying defects in woven fabrics. Current defect detection is carried out through use of visual inspection of fabric rolls after the rolls have been doffed from the production machinery, which adds a substantial lag between defect creation and detection. Existing methods for automatic defect detection rely on methods that suffer from substantial analysis time or a low percentage of detection. The method described in this thesis represents a quick and accurate approach to automatic defect detection and is capable of identifying defects such as lines, tears, and spots. Utilizing a Genetic Algorithm (GA) as the primary means of solving the wavelet filter equations with respect to a fabric image proved adequate in the construction of a wavelet filter that was capable of removing large amounts of the fabric texture from the image, thus allowing defect segmentation algorithms to run more effectively. Although a real-time system is not developed, suggestions for constructing such a system are presented. This work provides a foundation for the development of a real-time automated defect detector based on the algorithms and methodologies employed in this work.

Automated Defect Detection For Textile Fabrics Using Gabor Wavelet Networks

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Author : Pai Peng
language : en
Publisher: Open Dissertation Press
Release Date : 2017-01-27

Automated Defect Detection For Textile Fabrics Using Gabor Wavelet Networks written by Pai Peng and has been published by Open Dissertation Press this book supported file pdf, txt, epub, kindle and other format this book has been release on 2017-01-27 with categories.

This dissertation, "Automated Defect Detection for Textile Fabrics Using Gabor Wavelet Networks" by Pai, Peng, 彭湃, was obtained from The University of Hong Kong (Pokfulam, Hong Kong) and is being sold pursuant to Creative Commons: Attribution 3.0 Hong Kong License. The content of this dissertation has not been altered in any way. We have altered the formatting in order to facilitate the ease of printing and reading of the dissertation. All rights not granted by the above license are retained by the author. Abstract: Abstract of thesis entitled Automated Defect Detection for Textile Fabrics Using Gabor Wavelet Networks submitted by PENG PAI for the degree of Doctor of Philosophy at The University of Hong Kong in December 2006 This study seeks to develop efficient methodologies to facilitate automated detection of defects in textile fabrics. Its novelty consists in combining the practical implementation of feature extraction and learning techniques by using Gabor wavelet networks (GWNs) for object representation. The study develops three structure design algorithms to determine automatically the number of hidden nodes in a GWN. The first algorithm is based on a pyramid decomposition approach, and can be used to design wavelet networks. The second algorithm is based on two important properties of GWNs, and is developed specifically for designing GWNs to solve fabric defect detection problems. These properties, which are formally established in this study, indicate that: (1) the magnitude of the network weight associated with a wavelet of a GWN trained by using an objective function governs the contribution of the wavelet in reconstructing the function; and (2) in the network training process, the translation parameters of a wavelet in the network are likely to position at the edge region of the objective function being studied. The third algorithm is based on the concept of orthogonal forward selection, and can be used to design wavelet networks for solving small and medium sized problems. For larger problems, the algorithm can be used to supplement other structure design algorithms to reduce the size of the network. A new defect detection scheme which employs 2D GWNs is proposed in this study. A superwavelet is used to ensure correct alignment between a template image and the corresponding sample images. However, the complexity analysis of the proposed scheme indicates that it is computationally demanding. To overcome this limitation, a 1D version of the above scheme which does not employ a superwavelet is developed to speed up the detection process. The scheme's good defect detection performance is confirmed by using offline experiments and by using real time experiments conducted with the prototyped automated inspection system developed in this study. The deployment of a GWN to extract features from a non-defective fabric image for the purpose of designing "optimal" Gabor filters and "optimal" morphological filters is investigated. These "optimal" filters are then used to design three defect detection schemes for textile fabrics. Another filter design method based on a real Gabor wavelet network is also proposed. The method automatically tunes the real parts of the Gabor functions to match the texture being studied. Based on these tuned-matched Gabor wavelets, a new defect detection scheme for textile fabrics is developed. The performances of all schemes are evaluated offline and in real time by using a variety of homogeneous textile fabric images. The study also proposes a complex-valued wavelet network (CVWN), which employs complex-valued multi-dimensional Gabor wavelets as the transfer functions. The feasibility and effectiveness of the CVWN are shown by solving a complicated feature extraction problem. Indeed, it can be noticed that a CVWN can be separated into two real-valued wavelet networks, namely a Gabor wavelet network and a real Gabor wavelet network. DOI: 10.5353/th_b387661

Fabric Defect Detection By Wav

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Author : Tin-Chi Lee
language : en
Publisher: Open Dissertation Press
Release Date : 2017-01-27

Fabric Defect Detection By Wav written by Tin-Chi Lee and has been published by Open Dissertation Press this book supported file pdf, txt, epub, kindle and other format this book has been release on 2017-01-27 with Technology & Engineering categories.

This dissertation, "Fabric Defect Detection by Wavelet Transform and Neural Network" by Tin-chi, Lee, 李天賜, was obtained from The University of Hong Kong (Pokfulam, Hong Kong) and is being sold pursuant to Creative Commons: Attribution 3.0 Hong Kong License. The content of this dissertation has not been altered in any way. We have altered the formatting in order to facilitate the ease of printing and reading of the dissertation. All rights not granted by the above license are retained by the author. Abstract: Abstract of thesis entitled Submitted by LEE Tin Chi for the degree of Master of Philosophy at The University of Hong Kong in July 2004 Textile inspection plays an important role in maintaining the quality of products. In this thesis, three methods which utilize matched masks, wavelet transform and neural network are proposed for fabric defect detection. An evaluation of the performance of the methods was conducted on eight classes of fabric defects (Broken End, Dirty Yarn, Mispick, Netting Multiples, Slack End, Thick Bar, Thin Bar, and Wrong Draw). In the first method, a multi-channel filtering bank equipped with five matched masks was used. Matched masks are 2-D filters that characterize specific texture properties. They are designed to emphasize the Wrong Draw texture, the Mispick texture, the horizontal edges, the bars structure and the filled regions on fabric images. At the filter outputs, segmentation by thresholds is applied, followed by a logical OR operation. The total number of pixels exceeding the threshold on the resulting image determines whether the fabric image is defective or defect-free. Using this method, 96% of fabric defects were successfully detected, and the false alarm rate was 6%. The method achieved a 90% - 100% detection rate for most fabric defects, though the detection rate for Thin Bar defects was only 75%. The second method employed wavelet transform to decompose fabric images into multi-scales and orientations. During the training stage, the parameters to be optimized include the rotation angles and the two thresholds applied on the horizontal and vertical transformed images. The variation in rotation angles determines the selection of wavelet bases. During the detection stage, the discrimination criterion is based on the total number of defect windows. Using this method, only 76% of fabric defects were identified, and the false alarm rate was 7%. The detection rate for Dirty Yarn was high, but much lower for Broken End and Wrong Draw defects. The last method took advantage of the fault tolerance and learning ability of neural networks. We explored the texture structure of defect-free images so that feature extraction was conducted on repeating units with proper selection of locations. For defect images, similar feature vectors were extracted and passed to the neural network. Using this method, the detection rate was as high as 92% and the false alarm rate was 6%. Dirty Yarn, Netting Multiples, Mispick, Thin Bar and Wrong Draw defects were completely identified, while 75% of Broken End and Slack End defects were detected. However, only 73% of Thin Bar defects were detected. The method employing matched masks proved the most effective in detecting fabric defects. The neural network method was next best. The wavelet transform method was the least effective, because it was only able to detect effectively certain classes of fabric defects. Dirty Yarn, Netting Multiples, Mispick and Slack End defects are relatively easy to identify correctly. Wrong Draw and Thin Bar defects are less easy to detect and Broken End and Thick Bar defects are the most difficult to detect. DOI: 10.5353/th_b2928728 Subjects: Wavelets (Mathematics) Neural networks (Computer science) Textile fabrics - Testing

Soft Computing In Textile Engineering

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Author : Abhijit Majumdar
language : en
Publisher: Elsevier
Release Date : 2010-11-29

Soft Computing In Textile Engineering written by Abhijit Majumdar and has been published by Elsevier this book supported file pdf, txt, epub, kindle and other format this book has been release on 2010-11-29 with Computers categories.

Soft computing refers to a collection of computational techniques which study, model and analyse complex phenomena. As many textile engineering problems are inherently complex in nature, soft computing techniques have often provided optimum solutions to these cases. Although soft computing has several facets, it mainly revolves around three techniques; artificial neural networks, fuzzy logic and genetic algorithms. The book is divided into five parts, covering the entire process of textile production, from fibre manufacture to garment engineering. These include soft computing techniques in yarn manufacture and modelling, fabric and garment manufacture, textile properties and applications and textile quality evaluation. Covers the entire process of textile production, from fibre manufacture to garment engineering including artificial neural networks, fuzzy logic and genetic algorithms Examines soft computing techniques in yarn manufacture and modelling, fabric and garment manufacture Specifically reviews soft computing in relation to textile properties and applications featuring garment modelling and sewing machines

Reliability Risk And Safety Three Volume Set

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Author : Radim Bris
language : en
Publisher: CRC Press
Release Date : 2009-08-20

Reliability Risk And Safety Three Volume Set written by Radim Bris and has been published by CRC Press this book supported file pdf, txt, epub, kindle and other format this book has been release on 2009-08-20 with Technology & Engineering categories.

Containing papers presented at the 18th European Safety and Reliability Conference (Esrel 2009) in Prague, Czech Republic, September 2009, Reliability, Risk and Safety Theory and Applications will be of interest for academics and professionals working in a wide range of industrial and governmental sectors, including Aeronautics and Aerospace, Aut

Woven Textiles

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Author : Kim Gandhi
language : en
Publisher: Woodhead Publishing
Release Date : 2019-11-01

Woven Textiles written by Kim Gandhi and has been published by Woodhead Publishing this book supported file pdf, txt, epub, kindle and other format this book has been release on 2019-11-01 with Technology & Engineering categories.

Woven Textiles: Principles, Technologies and Applications, Second Edition, is an essential guide to woven textiles. This new edition is updated and expanded to include major new application areas, as well as the latest developments and innovations in terms of fibers, yarns, fabrics, machinery and technology. Sections cover fibers and yarns used for weaving, key preparatory techniques, the fundamentals of weaving technology, the characteristics of woven structures, the use of computer assisted design (CAD) systems, techniques for modelling the structure of woven fabrics, methods for the manufacture of 3D woven structures, and the application of woven textiles in a range of technologies. With its distinguished editor and international team of expert contributors, this second edition will be an indispensable guide for all designers, engineers and technicians involved in the design, manufacture and use of woven textiles, as well as for academics and researchers in the field of textiles. Provides extensive coverage of woven textiles, including their preparation, manufacture, woven structures and characteristics Presents the latest technical applications of woven textiles, such as transportation, geotextiles, medical applications, sports and leisure, filtration, and composite structures Enables the reader to understand the latest technological advances in the area of woven textiles

Woven Textile Structure

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Author : B K Behera
language : en
Publisher: Elsevier
Release Date : 2010-03-01

Woven Textile Structure written by B K Behera and has been published by Elsevier this book supported file pdf, txt, epub, kindle and other format this book has been release on 2010-03-01 with Technology & Engineering categories.

Understanding and predicting the structure and properties of woven textiles is important for achieving specific performance characteristics in various woven applications. Woven textiles are used in a range of products such as apparel, technical and industrial textiles. Woven textile structure: Theory and applications provides comprehensive coverage of the structure, behaviour, modeling and design of woven fabrics and their relevance to the textile industry.The first group of chapters review the fundamental principles of woven fabric structures. Part two discusses the mechanics of woven fabrics, topics include shrinkage in woven fabrics, yarn behaviour in woven fabrics and bending behaviour of woven fabrics. Part three presents a selection of chapters on design engineering of woven fabrics, themes such as textile product design methods and modelling for woven fabric design are covered. A final group of chapters is dedicated to addressing practical applications of woven fabrics.Woven textile structure: Theory and applications is essential reading for designers, engineers and technicians involved in the design, manufacture and use of woven textiles and garments. It will also bebeneficial to academics and students. Provides comprehensive coverage of the fundamentals of woven fabric structure including geometrical modeling Examines mechanisms of woven fabric structure featuring shrinkage, buckling, bending and creasing behaviour of textiles Illustrates mathematical modeling and building predictive models for textile product design incorporating validation and testing

Discriminative Fabric Defect Detection And Classification Using Adaptive Wavelet

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Author : Xuezhi Yang
language : en
Publisher:
Release Date : 2017-01-27

Discriminative Fabric Defect Detection And Classification Using Adaptive Wavelet written by Xuezhi Yang and has been published by this book supported file pdf, txt, epub, kindle and other format this book has been release on 2017-01-27 with categories.

This dissertation, "Discriminative Fabric Defect Detection and Classification Using Adaptive Wavelet" by Xuezhi, Yang, 楊學志, was obtained from The University of Hong Kong (Pokfulam, Hong Kong) and is being sold pursuant to Creative Commons: Attribution 3.0 Hong Kong License. The content of this dissertation has not been altered in any way. We have altered the formatting in order to facilitate the ease of printing and reading of the dissertation. All rights not granted by the above license are retained by the author. Abstract: Abstract of thesis entitled Discriminative Fabric Defect Detection and Classification Using Adaptive Wavelet Submitted by YANGXueZhi for the degree of Doctor of Philosophy at The University of Hong Kong in June 2003 This thesis develops an adaptive wavelet-based methodology which offers greater accuracy in fabric defect detection and classification than standard wavelet methods. This methodology uses wavelet transform, which can provide localized spatial-frequency analysis of the fabric image at several scales and orientations, and can discern fabric defects better than many traditional methods. In order to achieve shift-invariant representation and greater flexibility in the design of the wavelet, undecimated wavelet transform is proposed. Channel variances at the output of the undecimated wavelet transform are extracted to characterize each non-overlapping window of the fabric image. A Euclidean distance-based classifier then categorizes each image window as either defect or nondefect for the purpose of fabric defect detection, or assigns it to one of the defect categories for the purpose of fabric defect classification. Within the wavelet transform framework, we propose a design method which adapts the wavelets to the detection/classification of the fabric defects. These custom-designed wavelets are called adaptive wavelets. Traditionally, the designs of the feature extractor and the detector/classifier in a defect detection/classification system are only loosely linked, so that they are incapable of appropriate interaction. To alleviate this problem, the design of the adaptive wavelet-based feature extractoris incorporated with the design of the detector/classifier, with the single aim of achieving a minimum error rate in detection/classification. The proposed defect detection method has been evaluated on 841 defect samples from eight classes of defects, and 784 nondefect samples. A 96.1% detection rate and a 1.02% false alarm rate were achieved. The evaluations were also carried out on types of defects unknown to the designed feature extractor and detector. In the detection of 174 defect samples from three types of defects and 786 nondefect samples, a 90.8% detection rate and a 6.4% false alarm rate were achieved. Adaptive wavelets are better at detecting defects than standard wavelets, and need fewer scales of wavelet features, resulting in substantial computational savings. The proposed defect classification method has also been shown to outperform classification methods relying on the standard wavelets. In the classification of 466 defect samples containing eight classes of fabric defects and 434 nondefect samples, a 95.8% classification accuracy was achieved by our proposed method. We also explore the possibility of extending the scope by employing multiple instead of single adaptive wavelets. For each class of fabric defect, a defect-specific adaptive wavelet was designed to enhance the defect region at one channel of the wavelet transform. Multiple adaptive wavelets achieved better results than single adaptive wavelet in the inspection of 56 images containing eight classes of fabric defects, and 64 images without defects. A 98.2% detection rate and a 1.5% false alarm rate were achieved in defect detection, and a 97.5% classification accuracy was achieved in defect classification. DOI: 10.5353/th_b2991340 Subjects: Textile fabrics - Testing Wavelets (M

Fabric Defect Detection By Wavelet Transform And Neural Network

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Author : Tin-chi Lee
language : en
Publisher:
Release Date : 2004

Fabric Defect Detection By Wavelet Transform And Neural Network written by Tin-chi Lee and has been published by this book supported file pdf, txt, epub, kindle and other format this book has been release on 2004 with Neural networks (Computer science) categories.