IDEF0 Modeling Standard: A Tool for Process Map Drawing under Requirements of ISO 9001: 2015: A Case Study
الموضوعات :
1 - Department of Management, Saghez Branch, Islamic Azad University, Saghez, Iran
الکلمات المفتاحية: process approach, Process Map, IDEF, ISO 9001: 2015,
ملخص المقالة :
In the two past decades, powerful and highly user-friendly software has been introduced to modeling organizational processes. With some of this software, you can easily draw the sequences of business activities and processes in different organizations and industries to visualize the organization as a whole. On the other hand, the emphasis on the process approach at ISO 9001: 2000, and in particular at ISO 9001: 2015, has made process map extraction as an important issue for organizations. One of the best tools for the extraction of process maps is the IDEF0 standard, which allows you to extract organizational processes maps in fine detail, thereby displaying organizational processes as a whole. iGraf IDEF0 is one of the best software for modeling processes according to the IDEF standard. This article will describe how to extract the organizational process map in a production engineering company to implement ISO9001: 2015. Extracting these process maps plays a key role in institutionalizing the process approach in people.
[1] Gingele, J., Childe, S.J., Miles, ME. 2002. A modelling technique for re-engineering business processes controlled by ISO 9001. Computers in Industry. 49:235–51.
[2] Gazova, A., Papulova, Z., Papula, J., editors. 2016. The application of concepts and methods based on process approach to increase business process efficiency. 3rd Global Conference On Business, Economics, Management And Tourism. Rome, Italy: Procedia Economics and Finance.
[3] Kusiak, A., Nick Larson, T., Wang, JR. 1994. Reengineering of design and manufacturing processes. Computers & Industrial Engineering. 26(3):521-36.
[4] Baghbani, M., Iranzadeh, S., Bagherzadeh Khajeh, M. 2018. Extracting manufacturing process map in the form of the IDEF model prerequisite for the Implementation of PFMEA in the Sugar Industry. Journal of Modern Processes in Manufacturing and Production. 7(2):79-93.
[5] Liang, JS. 2018. An ontology-oriented knowledge methodology for process planning in additive layer manufacturing. Robotics and Computer Integrated Manufacturing. 53:28-44.
[6] ul Islam, A. 1997. Derivation of selection criteria of CIM database using IDEF0. Computers & Industrial Engineering. 33(1-2):31-34.
[7] Al-Ahmari, AMA, Ridgway K. 1999. An integrated modelling method to support manufacturing systems analysis and design. Computers in Industry. 38(3): 225-238.
[8] Mas, F., Racero, J., Oliva, M., Morales-Palma, D. 2019. Preliminary ontology definitionfor aerospace assembly lines in Airbus using Models for Manufacturing methodology. nternational Conference on Changeable, Agile, Reconfigurable and Virtual Production: Procedia Manufacturing. 38: 207-13.
[9] Hoyle, D. 2018 .ISO 9000 Quality Systems Handbook Increasing the Quality of an Organization’s Outputs. Edition S, editor. New York, NY 10017: Taylor & Francis Group.
[10] ISO9001:2015. International Organization for Standardization: http://www.iso.org.
[11] N1289, I. 2015. The Process Approach in ISO 9001:2015. Retrieved from International Organization for Standardization:
https://www.iso.org/files/live/sites/isoorg/files/archive/pdf/en/iso9001-2015-process-appr.pdf.
[12] Rahmanzade Heravi, M. 2003. Process organizations and organizational Paradigms. Tehran: Publications Office (in persian).
[13] Porshams, M. 2006. Documentation principles and techniques. Tehran: Iranian Center for Industrial Education and Research Publications.
[14] Van Rensburg, A., Zwemstra, N. 1995. Implementing IDEF techniques as simulation modelling specifications. Computers & Industrial Engineering.29(1-4):467-71.
[15] Zakarian, A., Kusiak, A. 2001. Process analysis and reengineering. Computer & Industrial Engineering. 41:135-50.
[16] Baghbani, M., Iranzadeh, S., Bagherzadeh Khajeh, M. 2019. Investigating the relationship between RPN parameters in fuzzy PFMEA and OEE in a sugar factory. Journal of Loss Prevention in the Process Industries. 60:221-232.
[17] Howard, L., Lewise, H. 2003. The development of a data system to optimise manufacturing processes during design. Journal of Material Processing Technology. 134:374-82.
[18] Perera, T., Liyanage, K. 2000. Methodology for rapid identi®cation and collection of input data in the simulation of manufacturing systems. Simulation Practice and Theory. 7:645-56.
[19] Kim, C-H., Weston, RH., Hodgson, A., Lee, K-H. 2003. The complementary use of IDEF and UML modelling approaches. Computers in Industry. 50:35–56.
[20] Hie Kim ,S., Jang, K-J. 2002. Designing performance analysis and IDEF0 for enterprise modelling in BPR. Int J Production Economics. 76:121-33.
[21] Godwin, AN., Gleeson, JW., Gwillian, D. 1989. An Assessment of the IDEF Notations as Descriptive Tools. lnformarion Sysrems.14(1):13-28.
[22] Jeong, K-Y. 2000. Conceptual frame for development of optimized simulation-based scheduling systems. Expert Systems with Applications. 18:299–306.
[23] Matias, JCH., Vizan, A., Garcia, JP., Rios, J. 2008. An integrated modelling framework to support manufacturing system diagnosis for continuous improvement. Robotics and Computer-Integrated Manufacturing. 24:187–99.