Manufacturing processes in the textile industry. Expert Systems for fabrics production
Abstract The textile industry is characterized by the economic activity whose objective is the production of fibres, yarns, fabrics, clothing and textile goods for home and decoration,as well as technical and industrial purposes. Within manufacturing, the Textile is one of the oldest and most complex sectors which includes a large number of sub-sectors covering the entire production cycle, from raw materials and intermediate products, to the production of final products. Textile industry activities present different subdivisions, each with its own traits. The length of the textile process and the variety of its technical processes lead to the coexistence of different sub-sectors in regards to their business structure and integration. The textile industry is developing expert systems applications to increase production, improve quality and reduce costs. The analysis of textile designs or structures includes the use of mathematical models to simulate the behavior of the textile structures (yarns, fabrics and knitting). The Finite Element Method (FEM) has largely facilitated the prediction of the behavior of that textile structure under mechanical loads. For classification problems Artificial Neural Networks (ANNs) haveproved to be a very effective tool as a quick and accurate solution. The Case-Based Reasoning (CBR) method proposed in this study complements the results of the finite element simulation, mathematical modeling and neural networks methods.
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https://doi.org/10.1007/978-3-642-32986-9_32
Bullón Pérez, J., González Arrieta, A., Hernández Encinas, A., and Queiruga-Dios, A., 2016. Industrial Cyber-Physical Systems in Textile Engineering. In International Conference on EUropean Transnational Education, pages 126–135. Springer.
Chattopadhyay, R. and Guha, A., 2004. Artificial neural networks: applications to textiles. Textile Progress, 35(1):1–46. https://doi.org/10.1080/00405160408688961
Chen, X., 2009. Modelling and predicting textile behaviour. Elsevier.
Corchado, J. M. and Lees, B., 2001. A hybrid case-based model for forecasting. Applied Artificial Intelligence, 15(2):105–127. https://doi.org/10.1080/088395101750065723
Dwivedi, A. and Dwivedi, A., 2013. Role of Computer and Automation in Design and Manufacturing for Mechanical and Textile Industries: CAD/CAM. International Journal of Innovative Technology and Exploring Engineering (IJITEE), 3(3):8.
Eichhoff, J., 2012. Data-transmitting Textile Fibre Ropes for Firefighting Applications. Shaker.
FAO, 2009. International Year of Natural Fibres 2009. Trade and Markets Division (EST).
Fdez-Riverola, F. and Corchado, J., 2000. Sistemas híbridos neuro-simbólicos: Una revisón. Inteligencia artificial: Revista Iberoamericana de Inteligencia Artificial, 4(11):12–26.
Fontana, M., Rizzi, C., and Cugini, U., 2005. 3D virtual apparel design for industrial applications. Computer-Aided Design, 37(6):609–622. https://doi.org/10.1016/j.cad.2004.09.004
Green, T. R., 1989. Cognitive dimensions of notations. People and computers V, pages 443–460.
Guruprasad, R., 2010. Soft computing in textiles. Indian Journal of Fibre & Textile Research, 35:75.
Kolodner, J., 2014. Case-based reasoning. Morgan Kaufmann.
McSherry, D., 2003. Similarity and compromise. In International Conference on Case-Based Reasoning, pages. https://doi.org/10.1007/3-540-45006-8_24
McSherry, D., 2006. Completeness criteria for retrieval in recommender systems. In European Conference on Case-Based Reasoning, pages 9–29. Springer. https://doi.org/10.1007/11805816_2
MODSIMText, P., 2008. Development of a rapid configuration system for textile production machinery based on the physical behaviour simulation of precision textile structures. FP7 EU Research project. Grant Agreement NMP2-SL-2008-214181.
Palma Morón, F., 1994. Operaciones fundamentales en la hilatura de fibras textiles. Hespérides.
Riesbeck, C. K. and Schank, R. C., 2013. Inside case-based reasoning. Psychology Press.
Spencer, D. J., 2001. Knitting technology: a comprehensive handbook and practical guide, volume 16. CRC Press.
Villanueva, B. S. and Sánchez-Marré, M., 2012. Case-based reasoning applied to textile industry processes. In International Conference on Case-Based Reasoning, pages 428–442. Springer.
https://doi.org/10.1007/978-3-642-32986-9_32
Bullon, J., González Arrieta, A., Hernández Encinas, A., & Queiruga Dios, A. (2017). Manufacturing processes in the textile industry. Expert Systems for fabrics production. ADCAIJ: Advances in Distributed Computing and Artificial Intelligence Journal, 6(1), 41–50. https://doi.org/10.14201/ADCAIJ2017614150
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