Implementation of RFID Middleware Based on Client-Multiserver Architecture for Traceability of Autoparts

The implementation of RFID systems allows automation of information flow along the production chains. This is a desirable condition for increasing efficiency, productivity and management, and it simplifies other activities such as traceability records along these supply and production chains, especi...

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Autores:: Aristizábal Tique, Víctor Hugo
Henao Jaramillo, Daniel
Montoya Tamayo, Daniel
Álvarez Ríos, Yolanda

Tipo de recurso:: Article of journal

Fecha de publicación:: 2019

Institución:: Universidad Cooperativa de Colombia

Repositorio:: Repositorio UCC

Idioma:

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network_name_str	Repositorio UCC
repository_id_str
dc.title.spa.fl_str_mv	Implementation of RFID Middleware Based on Client-Multiserver Architecture for Traceability of Autoparts
title	Implementation of RFID Middleware Based on Client-Multiserver Architecture for Traceability of Autoparts
spellingShingle	Implementation of RFID Middleware Based on Client-Multiserver Architecture for Traceability of Autoparts RFID Middleware identificación por radiofrecuencia identificación de objetos línea de producción RFID, Middleware, Radio Frequency Identification Object Identification Production Line
title_short	Implementation of RFID Middleware Based on Client-Multiserver Architecture for Traceability of Autoparts
title_full	Implementation of RFID Middleware Based on Client-Multiserver Architecture for Traceability of Autoparts
title_fullStr	Implementation of RFID Middleware Based on Client-Multiserver Architecture for Traceability of Autoparts
title_full_unstemmed	Implementation of RFID Middleware Based on Client-Multiserver Architecture for Traceability of Autoparts
title_sort	Implementation of RFID Middleware Based on Client-Multiserver Architecture for Traceability of Autoparts
dc.creator.fl_str_mv	Aristizábal Tique, Víctor Hugo Henao Jaramillo, Daniel Montoya Tamayo, Daniel Álvarez Ríos, Yolanda
dc.contributor.author.none.fl_str_mv	Aristizábal Tique, Víctor Hugo Henao Jaramillo, Daniel Montoya Tamayo, Daniel Álvarez Ríos, Yolanda
dc.subject.spa.fl_str_mv	RFID Middleware identificación por radiofrecuencia identificación de objetos línea de producción
topic	RFID Middleware identificación por radiofrecuencia identificación de objetos línea de producción RFID, Middleware, Radio Frequency Identification Object Identification Production Line
dc.subject.other.spa.fl_str_mv	RFID, Middleware, Radio Frequency Identification Object Identification Production Line
description	The implementation of RFID systems allows automation of information flow along the production chains. This is a desirable condition for increasing efficiency, productivity and management, and it simplifies other activities such as traceability records along these supply and production chains, especially in the automobile assembly supply chain as in the case of Renault-SOFASA-Colombia, where the traceability of automotive parts is realized manually by means of mobile terminals, which is time consuming and laborious, with low automotive parts rate and high error rate. In this work, a RFID solution for the traceability of automotive parts in real time in Renault-SOFASA-Colombia is implemented, where a middleware under client-multiserver architecture for Siemens readers is developed. The terminal, where the middleware is located, behaves like a client and links to several RFID readers which behave like servers, forming a star type network topology. This architecture allows a cost reduction in the implementation and operation of RFID solutions by reducing hardware acquisition and energy consumption, being an alternative that can compete with the solution provided by a manufacturer as Siemens without neglecting the robustness and the proper functioning of the system. Moreover, the proposed solution concentrates all the maintenance efforts of the system at a single point, which is due to the fact that a terminal attends all RFID portals. The tests performed, where the transport carts with the automotive parts and their respective RFID tags are passed through the RFID portals of the assembly plant, are in agreement with the results reported by the developed middleware.
publishDate	2019
dc.date.accessioned.none.fl_str_mv	2019-12-09T21:16:31Z
dc.date.available.none.fl_str_mv	2019-12-09T21:16:31Z
dc.date.issued.none.fl_str_mv	2019-11-12
dc.type.none.fl_str_mv	Artículo
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dc.identifier.issn.spa.fl_str_mv	1548-0992
dc.identifier.uri.spa.fl_str_mv	10.1109/TLA.2019.8896815
dc.identifier.uri.none.fl_str_mv	https://hdl.handle.net/20.500.12494/15476
dc.identifier.bibliographicCitation.spa.fl_str_mv	Henao-Jaramillo, D., Montoya-Tamayo, D. A., Álvarez-Ríos, Y., & Aristizabal-Tique, V. H. (2019). Implementation of RFID Middleware Based on Client-Multiserver Architecture for Traceability of Autoparts. IEEE Latin America Transactions, 17(06), 930-936
identifier_str_mv	1548-0992 10.1109/TLA.2019.8896815 Henao-Jaramillo, D., Montoya-Tamayo, D. A., Álvarez-Ríos, Y., & Aristizabal-Tique, V. H. (2019). Implementation of RFID Middleware Based on Client-Multiserver Architecture for Traceability of Autoparts. IEEE Latin America Transactions, 17(06), 930-936
url	https://hdl.handle.net/20.500.12494/15476
dc.relation.isversionof.spa.fl_str_mv	https://ieeexplore.ieee.org/document/8896815/keywords#keywords
dc.relation.ispartofjournal.spa.fl_str_mv	IEEE Latin America Transaction
dc.relation.references.spa.fl_str_mv	Z. Mingxiu, F. Chunchang, and Y. Minggen, “The Application used RFID in Third Party Logistics,” Phys. Procedia, vol. 25, pp. 2045–2049, 2012. A. Prakasam, P. Renold, and B. Venkatalakshmi, “Architecting Reader Adapter in RFID Systems,” in International Conference on Advances in Engineering, Science and Management (ICAESM), 2012, pp. 423–425. C. C. Song, Y. C. Hsu, C. C. Cheng, H. L. Ke, and D. C. Liaw, “Study and implementation of a networking information platform for RFID system,” in Proceedings of the IEEE International Conference on Industrial Technology, 2008, pp. 1–6. O. Gogliano and C. Eduardo Cugnasca, “An Overview Of The EPCglobal Network,” IEEE Lat. Am. Trans., vol. 11, no. 4, pp. 1053–1059, Jun. 2013. M. Gaynor, “Design Framework for Sensors and RFID Tags with Healthcare Applications,” Heal. Policy Technol., Jul. 2016. M. Chamekh, S. El Asmi, M. Hamdi, and T. H. Kim, “Context aware middleware for RFID based pharmaceutical supply chain,” in 2017 13th International Wireless Communications and Mobile Computing Conference, IWCMC 2017, 2017, pp. 1915–1920. A. Montaser and O. Moselhi, “RFID indoor location identification for construction projects,” Autom. Constr., vol. 39, pp. 167–179, Apr. 2014. F. Badalotti Brandao et al., “RFID Technology as a Life Cycle Management Tool in the Liquefied Petroleum Gas Industry,” IEEE Lat. Am. Trans., vol. 16, no. 2, pp. 391–397, 2018. J. P. Ferreira Centeno, V. F. Navarro Torres, and L. Silveira, “Tecnología de Identificación por Radio Frecuencia (RFID) aplicada en minería subterránea,” Rev. medio Ambient. Min. y minería, no. 5, pp. 59–67, 2018. S. Z. M. Hashim, Mardiyono, W. M. Nasir, W. Kadir, and N. Anuar, “Multi readers detection in adaptive RFID middleware,” in Proc. 9th ACIS Int. Conf. Software Engineering, Artificial Intelligence, Networking and Parallel/Distributed Computing, SNPD 2008 and 2nd Int. Workshop on Advanced Internet Technology and Applications, 2008, vol. 34, no. 3, pp. 858–863. D. Tanner, “Applications for RFID Technologies in the Food Supply Chain,” in Reference Module in Food Science, Elsevier, 2016. A. G. Foina, F. J. Ramirez-Fernandez, and S. E. Barbin, “An RFID bulk cargo supervising system,” IEEE Lat. Am. Trans., vol. 7, no. 6, pp. 688–693, 2009. T.-J. Fan, X.-Y. Chang, C.-H. Gu, J.-J. Yi, and S. Deng, “Benefits of RFID technology for reducing inventory shrinkage,” Int. J. Prod. Econ., vol. 147, pp. 659–665, Jan. 2014. H. Liu, Z. Yao, L. Zeng, and J. Luan, “An RFID and sensor technology-based warehouse center: assessment of new model on a superstore in China,” Assem. Autom., vol. 39, no. 1, pp. 86–100, Feb. 2019. S.-L. Peng, C.-J. Liu, J. He, H.-N. Yu, and F. Li, “Optimization RFID-enabled Retail Store Management with Complex Event Processing,” Int. J. Autom. Comput., vol. 16, no. 1, pp. 52–64, Feb. 2019. H.-L. Chan, “Using radiofrequency identification (RFID) technologies to improve decision-making in apparel supply chains,” in Information Systems for the Fashion and Apparel Industry, Elsevier, 2016, pp. 41–62. H. Baskoro, H. Prabowo, A. Trisetyarso, Meyliana, and A. N. Hidayanto, “Design considerations of RFID based baggage handling system, a literature review,” in 2017 International Conference on Information Management and Technology (ICIMTech), 2017, pp. 210–214. J. F. Zhang and C. J. Wen, “The university library management system based on radio frequency identification,” in 2017 10th International Congress on Image and Signal Processing, BioMedical Engineering and Informatics (CISP-BMEI), 2017, pp. 1–6. X.-X. Liao, S.-L. Sun, G. Jin, H.-F. Yang, and P.-Y. Lv, “Design and implementation of intelligent equipment information management system for aerospace laboratory,” in 2017 3rd International Conference on Information Management (ICIM), 2017, pp. 232–237. H. Xu, X. Chen, P. Li, J. Ding, and C. Eghan, “A Novel RFID Data Management Model Based on Quantum Cryptography,” in Third International Congress on Information and Communication Technology, 2019, pp. 437–445. K. Zang, H. Xu, F. Zhu, and P. Li, “Analysis and Design of Group RFID Tag Security Authentication Protocol,” in Conference on Complex, Intelligent, and Software Intensive Systems, 2019, pp. 637–645. A. Cherif, M. Belkadi, and D. Sauveron, “A Lightweight and Secure Data Collection Serverless Protocol Demonstrated in an Active RFIDs Scenario,” ACM Trans. Embed. Comput. Syst., vol. 18, no. 3, pp. 1–27, Apr. 2019. T. Bouhouche, M. A. El Khaddar, M. Boulmalf, M. Bouya, and M. Elkoutbi, “A new middleware architecture for the integration of RFID technology into information systems,” in 2014 International Conference on Multimedia Computing and Systems (ICMCS), 2014, pp. 1025–1030 V. Vimos and E. J. Sacoto Cabrera, “No Results of the implementation of a sensor network based on Arduino devices and multiplatform applications using the standard OPC UA,” IEEE Lat. Am. Trans., vol. 16, no. 9, pp. 2496–2502, 2018. E. Tudora and A. Alexandru, “Methods and Software Architecture for Managing a System for Verifying the Authenticity of Branded Products,” in The 15th WSEAS International Conference on COMPUTERS, 2011, pp. 15–17. C. Y. Chen and P. W. Tsai, “A design of multi-heterogeneous system using SOA and RFID middleware platform,” in 2010 International Conference on Machine Learning and Cybernetics, IEEE, ICMLC 2010, 2010, vol. 6, pp. 2956–2961. H. Liu, J. Li, J. Zhang, and X. C. Bai, “A performance improvement to the web services-based RFID middleware,” in Proceedings - 2008 International Conference on Advanced Computer Theory and Engineering, ICACTE 2008, 2008, pp. 657–661. D. Guinard, M. Mueller, and J. Pasquier-Rocha, “Giving RFID a REST: Building a web-enabled EPCIS,” in 2010 Internet of Things, IoT 2010, 2010. B. Feng, J. T. Li, P. Zhang, J. B. Guo, and Z. H. Ding, “Study of RFID middleware for distributed large-scale systems,” in Proceedings - 2006 International Conference on Information and Communication Technologies: From Theory to Applications, ICTTA 2006, 2006, vol. 2, pp. 2754–2759. L. Zhen-xiang and Z. Yu-xiang, “Design and Implementation of Embedded RFID Middleware,” Phys. Procedia, vol. 33, pp. 587–596, 2012.
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spelling	Aristizábal Tique, Víctor HugoHenao Jaramillo, DanielMontoya Tamayo, DanielÁlvarez Ríos, YolandaVolume 17, Issue 062019-12-09T21:16:31Z2019-12-09T21:16:31Z2019-11-121548-099210.1109/TLA.2019.8896815https://hdl.handle.net/20.500.12494/15476Henao-Jaramillo, D., Montoya-Tamayo, D. A., Álvarez-Ríos, Y., & Aristizabal-Tique, V. H. (2019). Implementation of RFID Middleware Based on Client-Multiserver Architecture for Traceability of Autoparts. IEEE Latin America Transactions, 17(06), 930-936The implementation of RFID systems allows automation of information flow along the production chains. This is a desirable condition for increasing efficiency, productivity and management, and it simplifies other activities such as traceability records along these supply and production chains, especially in the automobile assembly supply chain as in the case of Renault-SOFASA-Colombia, where the traceability of automotive parts is realized manually by means of mobile terminals, which is time consuming and laborious, with low automotive parts rate and high error rate. In this work, a RFID solution for the traceability of automotive parts in real time in Renault-SOFASA-Colombia is implemented, where a middleware under client-multiserver architecture for Siemens readers is developed. The terminal, where the middleware is located, behaves like a client and links to several RFID readers which behave like servers, forming a star type network topology. This architecture allows a cost reduction in the implementation and operation of RFID solutions by reducing hardware acquisition and energy consumption, being an alternative that can compete with the solution provided by a manufacturer as Siemens without neglecting the robustness and the proper functioning of the system. Moreover, the proposed solution concentrates all the maintenance efforts of the system at a single point, which is due to the fact that a terminal attends all RFID portals. The tests performed, where the transport carts with the automotive parts and their respective RFID tags are passed through the RFID portals of the assembly plant, are in agreement with the results reported by the developed middleware.The implementation of RFID systems allows automation of information flow along the production chains. This is a desirable condition for increasing efficiency, productivity and management, and it simplifies other activities such as traceability records along these supply and production chains, especially in the automobile assembly supply chain as in the case of Renault-SOFASA-Colombia, where the traceability of automotive parts is realized manually by means of mobile terminals, which is time consuming and laborious, with low automotive parts rate and high error rate. In this work, a RFID solution for the traceability of automotive parts in real time in Renault-SOFASA-Colombia is implemented, where a middleware under client-multiserver architecture for Siemens readers is developed. The terminal, where the middleware is located, behaves like a client and links to several RFID readers which behave like servers, forming a star type network topology. This architecture allows a cost reduction in the implementation and operation of RFID solutions by reducing hardware acquisition and energy consumption, being an alternative that can compete with the solution provided by a manufacturer as Siemens without neglecting the robustness and the proper functioning of the system. Moreover, the proposed solution concentrates all the maintenance efforts of the system at a single point, which is due to the fact that a terminal attends all RFID portals. The tests performed, where the transport carts with the automotive parts and their respective RFID tags are passed through the RFID portals of the assembly plant, are in agreement with the results reported by the developed middleware.https://scienti.colciencias.gov.co/cvlac/visualizador/generarCurriculoCv.do?cod_rh=00004482490000-0002-7880-5883https://scienti.colciencias.gov.co/gruplac/jsp/visualiza/visualizagr.jsp?nro=00000000005961victor.aristizabalt@campusucc.edu.codaniel.henao@jdl-solutions.codaniel.montoya@jdl-solutions.coyolandaalvarez@itm.edu.cohttps://scholar.google.com/citations?user=EbGraxIAAAAJ&hl=es930-936Universidad Cooperativa de Colombia, Facultad de Ingenierías, Ingeniería de Software, Medellín y EnvigadoIngeniería de SistemasMedellínhttps://ieeexplore.ieee.org/document/8896815/keywords#keywordsIEEE Latin America TransactionZ. Mingxiu, F. Chunchang, and Y. Minggen, “The Application used RFID in Third Party Logistics,” Phys. Procedia, vol. 25, pp. 2045–2049, 2012.A. Prakasam, P. Renold, and B. Venkatalakshmi, “Architecting Reader Adapter in RFID Systems,” in International Conference on Advances in Engineering, Science and Management (ICAESM), 2012, pp. 423–425.C. C. Song, Y. C. Hsu, C. C. Cheng, H. L. Ke, and D. C. Liaw, “Study and implementation of a networking information platform for RFID system,” in Proceedings of the IEEE International Conference on Industrial Technology, 2008, pp. 1–6.O. Gogliano and C. Eduardo Cugnasca, “An Overview Of The EPCglobal Network,” IEEE Lat. Am. Trans., vol. 11, no. 4, pp. 1053–1059, Jun. 2013.M. Gaynor, “Design Framework for Sensors and RFID Tags with Healthcare Applications,” Heal. Policy Technol., Jul. 2016.M. Chamekh, S. El Asmi, M. Hamdi, and T. H. Kim, “Context aware middleware for RFID based pharmaceutical supply chain,” in 2017 13th International Wireless Communications and Mobile Computing Conference, IWCMC 2017, 2017, pp. 1915–1920.A. Montaser and O. Moselhi, “RFID indoor location identification for construction projects,” Autom. Constr., vol. 39, pp. 167–179, Apr. 2014.F. Badalotti Brandao et al., “RFID Technology as a Life Cycle Management Tool in the Liquefied Petroleum Gas Industry,” IEEE Lat. Am. Trans., vol. 16, no. 2, pp. 391–397, 2018.J. P. Ferreira Centeno, V. F. Navarro Torres, and L. Silveira, “Tecnología de Identificación por Radio Frecuencia (RFID) aplicada en minería subterránea,” Rev. medio Ambient. Min. y minería, no. 5, pp. 59–67, 2018.S. Z. M. Hashim, Mardiyono, W. M. Nasir, W. Kadir, and N. Anuar, “Multi readers detection in adaptive RFID middleware,” in Proc. 9th ACIS Int. Conf. Software Engineering, Artificial Intelligence, Networking and Parallel/Distributed Computing, SNPD 2008 and 2nd Int. Workshop on Advanced Internet Technology and Applications, 2008, vol. 34, no. 3, pp. 858–863.D. Tanner, “Applications for RFID Technologies in the Food Supply Chain,” in Reference Module in Food Science, Elsevier, 2016.A. G. Foina, F. J. Ramirez-Fernandez, and S. E. Barbin, “An RFID bulk cargo supervising system,” IEEE Lat. Am. Trans., vol. 7, no. 6, pp. 688–693, 2009.T.-J. Fan, X.-Y. Chang, C.-H. Gu, J.-J. Yi, and S. Deng, “Benefits of RFID technology for reducing inventory shrinkage,” Int. J. Prod. Econ., vol. 147, pp. 659–665, Jan. 2014.H. Liu, Z. Yao, L. Zeng, and J. Luan, “An RFID and sensor technology-based warehouse center: assessment of new model on a superstore in China,” Assem. Autom., vol. 39, no. 1, pp. 86–100, Feb. 2019.S.-L. Peng, C.-J. Liu, J. He, H.-N. Yu, and F. Li, “Optimization RFID-enabled Retail Store Management with Complex Event Processing,” Int. J. Autom. Comput., vol. 16, no. 1, pp. 52–64, Feb. 2019.H.-L. Chan, “Using radiofrequency identification (RFID) technologies to improve decision-making in apparel supply chains,” in Information Systems for the Fashion and Apparel Industry, Elsevier, 2016, pp. 41–62.H. Baskoro, H. Prabowo, A. Trisetyarso, Meyliana, and A. N. Hidayanto, “Design considerations of RFID based baggage handling system, a literature review,” in 2017 International Conference on Information Management and Technology (ICIMTech), 2017, pp. 210–214.J. F. Zhang and C. J. Wen, “The university library management system based on radio frequency identification,” in 2017 10th International Congress on Image and Signal Processing, BioMedical Engineering and Informatics (CISP-BMEI), 2017, pp. 1–6.X.-X. Liao, S.-L. Sun, G. Jin, H.-F. Yang, and P.-Y. Lv, “Design and implementation of intelligent equipment information management system for aerospace laboratory,” in 2017 3rd International Conference on Information Management (ICIM), 2017, pp. 232–237.H. Xu, X. Chen, P. Li, J. Ding, and C. Eghan, “A Novel RFID Data Management Model Based on Quantum Cryptography,” in Third International Congress on Information and Communication Technology, 2019, pp. 437–445.K. Zang, H. Xu, F. Zhu, and P. Li, “Analysis and Design of Group RFID Tag Security Authentication Protocol,” in Conference on Complex, Intelligent, and Software Intensive Systems, 2019, pp. 637–645.A. Cherif, M. Belkadi, and D. Sauveron, “A Lightweight and Secure Data Collection Serverless Protocol Demonstrated in an Active RFIDs Scenario,” ACM Trans. Embed. Comput. Syst., vol. 18, no. 3, pp. 1–27, Apr. 2019.T. Bouhouche, M. A. El Khaddar, M. Boulmalf, M. Bouya, and M. Elkoutbi, “A new middleware architecture for the integration of RFID technology into information systems,” in 2014 International Conference on Multimedia Computing and Systems (ICMCS), 2014, pp. 1025–1030V. Vimos and E. J. Sacoto Cabrera, “No Results of the implementation of a sensor network based on Arduino devices and multiplatform applications using the standard OPC UA,” IEEE Lat. Am. Trans., vol. 16, no. 9, pp. 2496–2502, 2018.E. Tudora and A. Alexandru, “Methods and Software Architecture for Managing a System for Verifying the Authenticity of Branded Products,” in The 15th WSEAS International Conference on COMPUTERS, 2011, pp. 15–17.C. Y. Chen and P. W. Tsai, “A design of multi-heterogeneous system using SOA and RFID middleware platform,” in 2010 International Conference on Machine Learning and Cybernetics, IEEE, ICMLC 2010, 2010, vol. 6, pp. 2956–2961.H. Liu, J. Li, J. Zhang, and X. C. Bai, “A performance improvement to the web services-based RFID middleware,” in Proceedings - 2008 International Conference on Advanced Computer Theory and Engineering, ICACTE 2008, 2008, pp. 657–661.D. Guinard, M. Mueller, and J. Pasquier-Rocha, “Giving RFID a REST: Building a web-enabled EPCIS,” in 2010 Internet of Things, IoT 2010, 2010.B. Feng, J. T. Li, P. Zhang, J. B. Guo, and Z. H. Ding, “Study of RFID middleware for distributed large-scale systems,” in Proceedings - 2006 International Conference on Information and Communication Technologies: From Theory to Applications, ICTTA 2006, 2006, vol. 2, pp. 2754–2759.L. Zhen-xiang and Z. Yu-xiang, “Design and Implementation of Embedded RFID Middleware,” Phys. Procedia, vol. 33, pp. 587–596, 2012.RFIDMiddlewareidentificación por radiofrecuenciaidentificación de objetoslínea de producciónRFID,Middleware,Radio Frequency IdentificationObject IdentificationProduction LineImplementation of RFID Middleware Based on Client-Multiserver Architecture for Traceability of AutopartsArtículohttp://purl.org/coar/resource_type/c_6501http://purl.org/coar/resource_type/c_2df8fbb1http://purl.org/coar/version/c_970fb48d4fbd8a85info:eu-repo/semantics/articleinfo:eu-repo/semantics/publishedVersionAtribución – No comercialinfo:eu-repo/semantics/openAccesshttp://purl.org/coar/access_right/c_abf2PublicationLICENSElicense.txtlicense.txttext/plain; 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Implementation of RFID Middleware Based on Client-Multiserver Architecture for Traceability of Autoparts

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