Integration and testing of the RFID-enabled Smart Factory concept within the Learning Factory

Marko Mladineo; Ivica Veza; Nikola Gjeldum; Marina Crnjac; Amanda Aljinovic; Andrej Basic

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Integration and testing of the RFID-enabled Smart Factory concept within the Learning Factory

机译：在学习工厂中集成并测试了支持RFID的智能工厂概念

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The Industry 4.0 brought new production paradigms and, among them, the Smart Factory concept is definitely the most important one. Smart Factory concept is based on the integration of the Manufacturing Execution System (MES) with the shop-floor level on the one side, and with the Enterprise Resource Planning (ERP) level on the other side. The popular solution for the product data gathering is the RFID (radio-frequency identification) system. In this paper, the RFID-enabled Smart Factory has been designed and integrated within Learning Factory, and its performances have been tested. Regarding the design of the system, it was made as simpler as possible to enable students to understand it and work on it within Learning Factory environment. The Web application hosted on the Siemens Programmable Logic Controller (PLC) was made for controlling and managing of the RFID system (Turck BL-Ident RFID system). A simple MES was made to connect the data gathered by the RFID system with the ERP system (Venio ERP). The designed solution was integrated into the Lean Learning Factory at FESB, University of Split, and the performances were tested. The weakest point of the system could be the performance of the RFID system. Namely, for reading or writing the data on the RFID tag some amount of milliseconds is needed to successfully do it, in regard to the amount of data. So, the research was made, how fast product, with the RIFD tag attached onto it, can pass near the RFID head to have successful reading or writing of the data. Analysis of the test results and conclusions for the work-place design are given.

机译：工业4.0带来了新的生产范例，其中，“智能工厂”概念无疑是最重要的概念。智能工厂概念的基础是一方面将制造执行系统（MES）与车间层集成，另一方面将其与企业资源计划（ERP）集成在一起。产品数据收集的流行解决方案是RFID（射频识别）系统。在本文中，已将具有RFID功能的智能工厂设计并集成到学习工厂中，并对其性能进行了测试。关于系统的设计，它尽可能简化，使学生能够了解它并在Learning Factory环境中进行研究。托管在Siemens可编程逻辑控制器（PLC）上的Web应用程序用于控制和管理RFID系统（Turck BL-Ident RFID系统）。制作了一个简单的MES，以将RFID系统收集的数据与ERP系统（Venio ERP）连接起来。设计的解决方案已集成到斯普利特大学FESB的精益学习工厂中，并对其性能进行了测试。该系统的最弱点可能是RFID系统的性能。即，为了在RFID标签上读取或写入数据，就数据量而言，成功完成该过程需要一定数量的毫秒。因此，进行了研究，即带有RIFD标签的产品能够以多快的速度通过RFID磁头附近，从而成功读取或写入数据。给出了测试结果的分析和工作场所设计的结论。

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《Procedia Manufacturing》 |2019年第2期|共6页
作者
Marko Mladineo; Ivica Veza; Nikola Gjeldum; Marina Crnjac; Amanda Aljinovic; Andrej Basic;
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中图分类工业建设与发展;
关键词
Learning FactorySmart FactoryRFID;

机译：学习工厂智能工厂RFID;

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1. Integration and testing of the RFID-enabled Smart Factory concept within the Learning Factory [J] . Marko Mladineo, Ivica Veza, Nikola Gjeldum, Procedia Manufacturing . 2019,第3期

机译：在学习工厂中集成并测试了支持RFID的智能工厂概念
2. A Seamless Convergence of the Digital and Physical Factory Aiming in Personalized Product Emergence Process (PPEP) for Smart Products within ESB Logistics Learning Factory at Reutlingen University [J] . Beate Brenner, Vera Hummel Procedia CIRP . 2016,第2期

机译：数字和物理工厂的无缝融合，旨在实现罗伊特林根大学ESB物流学习工厂内智能产品的个性化产品出现过程（PPEP）
3. A Seamless Convergence of the Digital and Physical Factory Aiming in Personalized Product Emergence Process (PPEP) for Smart Products within ESB Logistics Learning Factory at Reutlingen University [J] . Beate Brenner, Vera Hummel Procedia CIRP . 2016,第2aPartaB期

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4. A seamless convergence of the digital and physical factory aiming in personalized Product Emergence Process (PPEP) for smart products within ESB Logistics Learning Factory at Reutlingen University [C] . Beate Brenner, Vera Hummel Conference on Learning Factories . 2016

机译：瑞林根大学ESB物流学习厂的智能产品中的数字和物理工厂的无缝融合
5. Smart as a Bug: A Computational Model of Learning in the Moth Olfactory Network, with Applications to Neural Nets [D] . Delahunt, Charles Boise. 2017

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6. Matching- and Nonmatching-to-Sample Concept Learning in Rats using Olfactory Stimuli [O] . L. Brooke April, Katherine Bruce, Mark Galizio 2011

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7. A seamless convergence of the digital and physical factory aiming in personalized Product Emergence Process (PPEP) for smart products within ESB Logistics Learning Factory at Reutlingen University [O] . Brenner Beate, Hummel Vera 2016

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Integration and testing of the RFID-enabled Smart Factory concept within the Learning Factory

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