Concurrent engineering strategies and their impact on the adoption of the Mass Customization technique: An analytical study of the opinions of a sample of individuals working in the obstetric clothing factory in Mosul
Article Sidebar
THIS IS AN OPEN ACCESS ARTICLE UNDER THE CC BY LICENSE
Main Article Content
Abstract
The current research focused on clarifying the Concurrent engineering strategies that included (parallelism, standardization, integration, optimization) in adopting the Mass Customization technique in the neonatal clothing factory in Mosul. In the research laboratory a model was prepared that explains the variables of the research, and for the purpose of achieving the objectives of the research, a questionnaire was relied on and distributed to the individuals working in the lab investigated by (56) forms. To many conclusions, among them there was a great interest by the research laboratory in Concurrent engineering strategies in adopting the technique of Mass Customization through testing the research hypotheses Based on its findings. Several proposals were presented, including encouraging the research laboratory to form a work team specialized in concurrent engineering to develop production work and provide the best designs by adopting the broad bequest technique that can provide high quality goods.
Downloads
Article Details
References
Altonen, Aiste & Altonen, Kalle, (2011), Success Factors of Mass Customization Cases: Chocri and Shoes of Prey, Master’s Thesis in Departments of International Business and Management and Marketing.
Barahona Edgardo Moreira, (2003), An Ontology-Based Approach to Support the Implementation of Concurrent Engineering in The Innovation Process, Master’s Thesis, Technology and Innovation Management, Department of Economics, University of Applied Sciences of Brandenburg, Brandenburg an der Havel, Germany.
Barman Samir, (2013), An Overview of Mass Customization in Practice, Division of Marketing and Supply Chain Management Michael F. Price College of Business University of Oklahoma Norman, gebrc.nccu.edu.tw
Braukhane A., Dumont E., Koch A.D., & Joumier H., (2013). Launch Vehicle Design applying Concurrent Engineering. AIAA SPACE 2013 Conference and Exposition. doi:10.2514/6.2013
Beckett Ronald C., (2013), Learning and Concurrent Engineering in the Development of a High Technology Product/Service System’, 20th ISPE International Conference on Concurrent Engineering
Cleetos, K. J., (2008), Definitions of concurrent engineering CERT Technical Report Series Research Note, West Virginia University, USA.
DaSilveira Giovani J.C., Borenstein Denis, Fogliatto Flavio S., (2001), Mass Customization: Literature Review and Research Directions, International Journal of Production Economics.
Ebrahimi M, Sajjad, (2011), Concurrent Engineering Approaches within Product Development Processes for Managing Production Start-up phase, Master’s Thesis, Production Systems: Production Development and Management, School of Engineering.
Grant Mitchell, (2021), Business Essentials Standardization, https://www.investopedia.com/terms/s/standardization.asp
Griffith, D. A., Hu, M. Y., & Ryans, J. K., (2000), Process Standardization across Intra- and Inter-Cultural Relationships, Journal of International Business Studies, 31(2)
Gunasekaran A., (2017), Concurrent engineering: a competitive strategy for process industries, Journal of the Operational Research Society, 49:7 https://www.tandfonline.com/loi/tjor20
Karningsih Putu Dana, Anggrahini Dewanti, and Imam Syafi’i. Muhammad, (2015), Concurrent engineering implementation assessment: A case study in an Indonesian manufacturing company,Industrial Engineering and Service Science, www.sciencedirect.com
Kfm Dipl.& Harzer Thorsten Simon, (2013), Value Creation Through Mass Customization: An Empirical Analysis of the Requisite Strategic Capabilities, provided by Publikationsserver der RWTH Aachen University.
Kim Songi & Lee Keeheon, (2022), The paradigm shifts of mass customisation research, International Journal of Production Research. https://doi.org/10.1080/00207543.2022.2081629
Lohmann, M., José Anzanello M., Sanson Fogliatto F., & Caetano da Silveira, G., (2019), Grouping workers with similar learning profiles in mass customization production lines, Computers & Industrial Engineering. https://doi.org/10.1016/j.cie.2019.03.012
Medvecky S., Hrcekova A., Gregor M., Buday J., Macus P., and Hrcek S., (2007), Application of New Technologies and Approach in Mechanical Design Rapid prototyping, Reverse engineering, 3D scanning, 3D printing, productivity innovation, 2 (5).
Münstermann Björn & Weitzel Tim, (2008), What Is Process Standardization? International Conference on Information Resources Management (CONF-IRM), Association for Information Systems AIS Electronic Library (AISeL).
Nambiar Arun N., (2009), Mass Customization: Where do we go from here? Proceedings of the World Congress on Engineering, Vol I, London, U.K.
Panayotova Tanya, (2018), The Role of Concurrent Engineering in Development and Digitalization of Industrial Activities, International Scientific Journal Innovations ISSUE 1
Parkin, Keliven L. G., (2003), Ice Maker,Tm: An Excel – Based Environment for collaborative Desig. IEE Aerospace conference proceeding.
Piller F., Harzer T., IhI C.,and Salvador F., (2014), Strategic capabilities of mass customization based E-commerce: construct development and empirical test. IEEE Xplore Digital library (HICSS), Conference: 6-9 Jan, Waikoloa, HI, Publisher IEEE.
pullan Thankachan T.m., Bhasi Gmadhu, (2011), Application of object-oriented framework on manufacturing domain Journal of manufacturing Technology management, vol 22, issu 7
Ramana V. Venkata, Kumar H.M. Anil, and Nagaraj B. Realizing, (2015), Concurrent Engineering in Product Development: A Survey on Two-Wheeler Auto Industry, International Journal of Advanced Technology in Engineering and Science, Volume 03, Special Issue No. 01, www.ijates.com
Rautenstrauch C., Seelmann-Eggebert, R., & Turowski, K., (2002), Moving into mass customization: information systems and management principles, Springer Science & Business Media, New York.
Ritzman P. Larry& Krajewski Lee & Malhotra Manoj K. & Klassen Robert D., (2013), Foundations of operations management, 3th ed, pearson Canada Inc.
Shidpour H., Shahrokhi M., Bernard A., (2013), A multiobjective programming approach, integrated into the TOPSIS method, in order to optimize product design; in three-dimensional concurrent engineering Computers & Industrial Engineering, Vol. 64, Issu 4
Tenkorang R. Addo, (2011), Concurrent Engineering (CE): A Review Literature Report, Proceedings of the World Congress on Engineering and Computer Science Vol II, WCECS, October 19-21, 2011, San Francisco, USA. http://www.ivsl.org. http://libhub.sempertool.dk.
Yassine Ali, and Braha Dan, (2003), Complex Concurrent Engineering and the Design Structure Matrix Method,Concurrent Engineering: Research and Applications, Volume 11 Number 3 September.
Zawadzki Przemysław & Żywicki Krzysztof, (2016), Smart Product Design and Production Control for Effective Mass Customization in the Industry 4.0 Concept, Management and Production Engineering Review, Volume 7, Number 3