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http://dx.doi.org/10.14248/JKOSSE.2015.11.2.095

A Study on Application of Systems Engineering Approach to Design of Smart Manufacturing Execution System  

Jeon, Byeong-woo (Graduate School of Engineering Mastership (GEM), POSTECH))
Shin, Kee-Young (Graduate School of Engineering Mastership (GEM), POSTECH))
Hong, Dae-Geun (Graduate School of Engineering Mastership (GEM), POSTECH))
Suh, Suk-Hwan (Graduate School of Engineering Mastership (GEM), POSTECH))
Publication Information
Journal of the Korean Society of Systems Engineering / v.11, no.2, 2015 , pp. 95-105 More about this Journal
Abstract
Manufacturing Execution System(MES) is in charge of manufacturing execution in the shop floor based on the inputs given by high level information such as ERP, etc. The typical MES implemented is not tightly interconnected with shop floor control system including real (or near real) time monitoring and control devices such as PLC. The lack of real-time interfaces is one of the major obstacles to achieve accurate and optimization of the total performance index of the shop floor system. Smart factory system in the paradigm of Industry 4.0 tries to solve the problems via CPS (Cyber Physical System) technology and FILS (Factory In-the-Loop System). In this paper, we conducted Systems Engineering Approach to design an advanced MES (namely Smart MES) that can accommodate CPS and FILS concept. Specifically, we tailored Systems Engineering Process (SEP) based on an International Standard formalized as ISO/IEC 15288 to develop Stakeholders' Requirements (StR), System Requirements (SyR). The deliverables of each process are modeled and represented by the SysML, UML customized to Systems Engineering. The results of the research can provide a conceptual framework for future MES that can play a crucial role in the Smart Factory.
Keywords
Manufacturing Execution System(MES); Cyber Physical System(CPS); Systems Engineering;
Citations & Related Records
Times Cited By KSCI : 1  (Citation Analysis)
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1 Shin, J. G, Lim, H.J, Han,S.H (2004)Digital Manufacturing, A new wave of manufacturing technology :CAD&Graphic.
2 Mitchell M. Tseng, S. Jack Hu(2014) Mass Customization : The International Academy for Production Engineering.
3 MESA Model, Available at: http://mesa.org/ en/modelstrategicinitives/MESAModel.asp( Accessed: 7th August 2015).
4 Yoon, Y.D, Oh, S.G, Yu, W.S(2008)A Study on Development of the Manufacturing Execution System(MES) for Order Based Production Small and Medium - Sized Enterprise.
5 Saenz de Ugarte B. , Artiba A. , Pellerin R. (2009) 'Manufacturing execution system - a literature review', Production planning and control,20(6), pp. 525-539.   DOI
6 Ragunathan R., Lee, I. S , Lui S, John S.(2009) 'Cyber-Physical Systems: The Next Computing Revolution', ACM, pp. 731-736.
7 ISO& IEC (2008) ISO/IEC 15288 Systems and Software engineering -System Life Cycle Processes.
8 Suh, S. H, Shin, S. J, Yoon, J. S, Um, J. M(2008), 'UbiDM: A new paradigm for product design and manufacturing via ubiquitous computing technology', International Journal of Computer Integrated Manufacturing, 21(5), pp. 540-549.   DOI
9 Yoon, J. S, Shin, S. J, Suh. S. H (2012), 'A conceptual framework for the ubiquitous factory', International Journal of Production Research, 50(8), pp. 2174-2189.   DOI
10 Shin, K. Y, Hong, D. G, Yoon, S. C , Suh, S. H(2014), 'A Study on Application of Systems Engineering Approach to Designing Continuous Casting System', The Korean Society of Systems Engineering, 10(2), pp. 21-31.   DOI
11 Joo, H. T (2008),An Overview of MES Solution Trends and A Strategy for Successful MES Deployment, Available at: http://www.cimerr.net/iemagazine/15_3/practice2.html(Accessed: 7th May 2015).
12 American National Standard (2010) ANSI/ISA-95.00.01-2010 Enterprise control system integration-Part 1: models and terminology.
13 A Framework for Systems and Software Engineering Life Cycle Processes, Available at: http://www.15288.com/about_standards.php (Accessed: 28th August 2015).
14 SE Handbook Working Group, Systems Engineering Handbook - A Guide or System Life Cycle Processes and Activities V3.2.2, International Council on Systems Engineering (INCOSE), 2011.
15 Park, J.H, Yoshida, A(2009), 'A Simplified MES Implementation for Small-sized Manufacturing Industries with EXCEL VBA', Korean Institute of Industrial Engineers, 22(4), pp302-311.
16 Agnieszka R., Arne B, Marcel B, Erik S. M(2014), The Smart Factory: Exploring Adaptive and Flexible Manufacturing Solutions, Procedia Engineering, pp. 1184-1190.
17 Shirley Schmidt (n.d.), Understanding Manufacturing Execution Systems(MES), Brighton: Freedom Technologies.
18 Michael M. (2001), INTRODUCTION TO MANUFACTURING EXECUTION SYSTEMS, Baltimore.
19 Shin, J.D(2015), 'Design and Implementation of MES Solution for Multi-Variety and Small-Lot-Sized FPCB Production, Science& Engineering Graduate School of University of Seoul.
20 Park, J.H, Yoshida, A(2005), 'An MES Implementation Methodology for the Mediumsized Manufacturing Company with Multipletypes of products and Mixed Process Flows', Korean Institute of Industrial Engineers & Korean Operations Research and Management Science Society Joint Symposium.