طراحی مدل توسعه پایدار در صنعت خودرو ایران با رویکرد انقلاب صنعتی چهارم
محورهای موضوعی :
مدیریت صنعتی
salar amini
1
,
mojtaba ramazani
2
,
Jafar Beikzad
3
,
abasgholi sanginorpor
4
1 - PhD Student in Public Management, Human Resources Management, Bonab Branch, Islamic Azad University, Bonab, Iran
2 - Head of Management Department, Faculty of Humanities, Islamic Azad University, Bonab Branch, Iran
3 - Department of Management, Islamic Azad University, Bonab Branch, Bonab, Iran
4 - Department of Management, Bonab Branch, Islamic Azad University, Bonab, Iran
تاریخ دریافت : 1400/10/15
تاریخ پذیرش : 1401/07/18
تاریخ انتشار : 1401/08/01
کلید واژه:
توسعه پایدار,
موانع پایداری,
AHP فازی,
مدلسازی ساختاری تفسیری,
فرصتهای انقلاب صنعتی 4,
چکیده مقاله :
انقلاب صنعتی چهارم در حال دگرگونی صنایع تولیدی و خدماتی در سطح دنیا و به ویژه کشورهای پیشرو در این زمینه می باشد. این پدیده، میتواند همزمان فرصتها و تهدیدهای گستردهای برای صنایع کشورمان به همراه داشته باشد. با تدوین برنامههای راهبردی متناسب با اتکا به توان و مزیتهای رقابتی ایران، میتوان ضمن حفظ و ارتقای سطح رقابتپذیری صنایع کشور از این فضای در حال شکلگیری در جهت بهینهسازی فرآیندهای توسعه صنعتی استفاده بهینه نمود. در مقاله حاضر به ارائه الگوی توسعه پایدار با رویکرد انقلاب صنعتی 4 در صنعت خودرو پرداخته شده است. در این مطالعه، سعی شد تا موانع توسعه پایدار و همچنین فرصتهای انقلاب صنعتی 4 در جهت ایجاد توسعه پایدار، با بررسی ادبیات موضوع و نظر خبرگان طی اجرای تکنیک دلفی، شناسایی و دستهبندی گردد. سپس از رویکرد مدلسازی ساختاری تفسیری جهت سطح بندی و تعیین روابط بین موانع پایداری استفاده شد. در گام بعد، فرصتهای انقلاب صنعتی 4 توسط روش AHP فازی، رتبهبندی گردید. در نهایت، با استفاده از نظر خبرگان صنعت خودرو، پیشنهاداتی جهت تخصیص، فرصتهای انقلاب صنعتی 4 برای رفع موانع پایداری ارائه گردید. نتایج بدست آمده نشان داد: 1) بیشترین تاثیر را به ترتیب موانع سیاسی، فنی و اقتصادی بر پایداری و توسعه پایدار در صنعت دارند؛ 2) ابعاد محیطی و اجتماعی به ترتیب بیشترین تاثیر را از موانع سیاسی و فنی میپذیرند؛ 3) در بین فرصتهای انقلاب صنعتی ۴) فرصتهای اطلاعاتی و تکنولوژیکی انقلاب صنعتی 4 دارای بالاترین رتبه و مدیریت زنجیره تامین دارای کمترین رتبه میباشد.
چکیده انگلیسی:
The Fourth Industrial Revolution is transforming the manufacturing and service industries around the world, especially the leading countries in this field. This phenomenon can simultaneously bring wide opportunities and threats to our country's industries. By formulating strategic plans in accordance with the strength and competitive advantages of Iran, while maintaining and promoting the level of competitiveness of the country's industries, this emerging space can be used optimally to optimize industrial development processes. Using the Industrial Revolution 4, this paper presents a model of sustainable development with the approach of in the automotive industry. In this study, we tried to identify and categorize the obstacles to sustainable development as well as the opportunities of the Industrial Revolution 4 in order to create sustainable development by examining the literature and the opinion of experts during the Delphi technique. Then, the interpretive structural modeling approach was used to level and determine the relationships between stability barriers. In the next step, the opportunities of the Industrial Revolution 4 were ranked by the fuzzy (AHP) method. Finally, using the opinion of automotive industry experts, proposals were made to allocate the opportunities of the Industrial Revolution 4 to remove the obstacles to sustainability. The results showed: 1. Political, technical and economic barriers have the greatest impact on sustainability and sustainable development in industry, respectively; 2. Environmental and social dimensions are most affected by political and technical barriers, respectively; 3. Among the opportunities of the Industrial Revolution 4 the information and technological opportunities of the Industrial Revolution 4 have the highest rank and the supply chain management has the lowest rank.
منابع و مأخذ:
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Bag, Surajit & Gupta, Shivam & Kumar, Sameer. (2021). Industry 4.0 adoption and 10R advance manufacturing capabilities for sustainable development. International Journal of Production Economics. 231, 107844.
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Bonilla, S. & Silva, Helton & Silva, Marcia & Goncalves, Rodrigo & Sacomano, Jose. (2018). Industry 4.0 and Sustainability Implications: A Scenario-Based Analysis of the Impacts and Challenges. Sustainability.10(10), 3740.
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Dogruel Anuşlu, Merve & Firat, Seniye. (2019). Clustering analysis application on Industry 4.0 driven global indexes. Procedia Computer Science. 158, 145-152.
Dossou, Paul-Eric. (2019). Development of a new framework for implementing industry 4.0 in companies. Procedia Manufacturing. 38, 573-580.
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Iubel, David & Pinheiro de Lima, Edson & Gonçalves Machado, Carla & Gouvea da Costa, Sergio.(2020). A Review Content Analysis Between Industry 4.0 and Sustainable Manufacturing. 12-23
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Olah, Judit & Aburumman, Nemer & Popp, Jozsef & Khan, Muhammad & Haddad, Hossam & Kitukutha, Nicodemus & Popp, Jozsef & Jammu, Azad & Kashmir. (2020). Impact of Industry 4.0 on Environmental Sustainability.12(11),4674.
Palmer, Robert. (2009). Skills development, employment and sustained growth in Ghana: Sustainability challenges.International journal of Educational Development. 29(2),133-139.
Petrakis, Panagiotis & Kostis, Pantelis. (2020). Sustainable Development.The Evolution of the Greek Economy: Springer International Publishing.
Pezenatto, Leonardo & Coti-Zelati, Paolo & Araujo, Davi. (2020). Industry 4.0 and sustainable development in the automotive sector industria 4.0. 10(1), 26-54.
Ren, Jingzheng, Hanwei, Liang, Liang, Dong, Zhiqiu, Gao, Chang He, Ming, Pan & Lu, Sun (2017). Sustainable development of sewage sludge-to-energy in China: Barriers identification & technologies prioritization, Renewable & Sustainable Energy Reviews. 67(c), 384-396.
Stave, Krystyna (2010). Participatory System Dynamics Modeling for Sustainable Environmental Management: Observations from Four Cases, Sustainability. 2(9), 2762-2784.
Stock ,T & Seliger, G.(2016). Opportunities of Sustainable Manufacturing in Industry 4.0. Procedia CIRP. 40(1),536-541.
Stock, T., Obenaus, M., Kunz, S., & Kohl, H. (2018). Industry 4.0 as Enabler for a Sustainable Development: A Qualitative Assessment of its Ecological and Social Potential. Process Safety and Environmental Protection.118, 254-267.
Yadav, Gunjan & Kumar, Anil & Luthra, Sunil & Garza-Reyes, Jose Arturo & Kumar, Vikas & Batista, Luciano. (2020). A Framework to Achieve Sustainability in Manufacturing Organisations of Developing Economies using Industry 4.0 Technologies’ Enablers. Computers in Industry.122,103280.
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Asrul Mustapha, M., & Abdul Manan, Z., & Alwi, SH-R-W. (2017). Sustainable Green Management System (SGMS) An integrated approach towards organisational sustainability. Journal of Cleaner Production, 146, 158–172.
Bag, Surajit & Gupta, Shivam & Kumar, Sameer. (2021). Industry 4.0 adoption and 10R advance manufacturing capabilities for sustainable development. International Journal of Production Economics. 231, 107844.
Bag, S.and Pretorius, J.H.C. (2022), "Relationships between industry 4.0, sustainable manufacturing and circular economy: proposal of a research framework", International Journal of Organizational Analysis, Vol. 30 No. 4, pp. 864-898.
Bai, Chunguang & Dallasega, Patrick & Orzes, Guido & Sarkis, Joseph. (2020). Industry 4.0 technologies assessment: A sustainability perspective. International Journal of Production Economics. 229,107776.
Bakkari, Mohammed & Khatory, Abdellah. (2017). Industry 4.0: Strategy for More Sustainable Industrial Development in SMEs. Proceedings of the International Conference on Industrial Engineering and Operations Management, 1693-1701.
Beier, Grischa & Ullrich, Andre & Niehoff, Silke & Reibig, Malte & Habich, Matthias. (2020). Industry 4.0: How it is defined from a sociotechnical perspective and how much sustainability it includes – A literature review. Journal of Cleaner Production. 259,120856.
Bonilla, S. & Silva, Helton & Silva, Marcia & Goncalves, Rodrigo & Sacomano, Jose. (2018). Industry 4.0 and Sustainability Implications: A Scenario-Based Analysis of the Impacts and Challenges. Sustainability.10(10), 3740.
Bongomin, Ocident & Oyondi Nganyi, Eric & Ramadhani, Abswaidi & Hitiyise, Emmanuel & Tumusiime, Godias. (2020). Sustainable and Dynamic Competitiveness towards Technological Leadership of Industry 0: Implications for East African Community. Journal of Engineering.2020, 8545281.
Carvalho, Nubia & Chaim, Omar & Cazarini, Edson & Gerolamo, Mateus. (2018). Manufacturing in the fourth industrial revolution: A positive prospect in Sustainable Manufacturing. Procedia Manufacturing. 21, 671-678.
Dassisti, Michele & Semeraro, Concetta & Chimenti, Michela. (2019). Hybrid Exergetic Analysis-LCA approach and the Industry 4.0 paradigm: Assessing Manufacturing Sustainability in an Italian SME. Procedia Manufacturing. 33, 655-662.
Dogruel Anuşlu, Merve & Firat, Seniye. (2019). Clustering analysis application on Industry 4.0 driven global indexes. Procedia Computer Science. 158, 145-152.
Dossou, Paul-Eric. (2019). Development of a new framework for implementing industry 4.0 in companies. Procedia Manufacturing. 38, 573-580.
Raj, P. E., Wahab, S. A., Zawawi, N. F. M., Awang, K. W & Ibrahim, W. S. A. A. W. (2020). The benefits of Industry 4.0 on Sustainable Development and Malaysia’s Vision. In IOP Conference Series: Earth and Environmental Science. 549, 012080.
Ejsmont, Krzysztof & Gladysz, Bartlomiej & Kluczek, Aldona. (2020). Impact of Industry 4.0 on Sustainability - Bibliometric Literature Review. Sustainability.12(14),5650.
Ghobakhloo, Morteza. (2019). Industry 4.0, Digitization, and Opportunities for Sustainability. Journal of Cleaner Production. 252,76-90.
Haase, Hartwig. (2020). Sustainability and Sustainable Development. Integrated Design Engineering. 163-220
Hussain, M., Khan, M. & Al-Aomar, R. (2016).A framework for supply chain sustainability in service industry with Confirmatory Factor Analysis. Renewable & Sustainable Energy Reviews. 55, 1301–1312.
Iubel, David & Pinheiro de Lima, Edson & Gonçalves Machado, Carla & Gouvea da Costa, Sergio.(2020). A Review Content Analysis Between Industry 4.0 and Sustainable Manufacturing. 12-23
Jabbour, Ana Beatriz & Jabbour, Charbel & Foropon, Cyril & Filho, Moacir. (2018). When titans meet – Can industry 4.0. revolutionise the environmentally-sustainable manufacturing wave? The role of critical success factors. Technological Forecasting and Social Change. 132,945-978.
Jena, Madhab & Mishra, Sarat & Moharana, Himanshu. (2019). Application of Industry 4.0 to enhance sustainable manufacturing. Environmental Progress & Sustainable Energy. 39(1),13360.
Kumar, Ravinder & Singh, Rajesh & Dwivedi, Yogesh. (2020). Application of Industry 4.0 technologies in Indian SMEs for sustainable growth: Analysis of challenges. Journal of cleaner production.275,124063.
Manavalan, E., Jayakrishna, (2019). A review of Internet of Things (IoT) embedded sustainable supply chain for industry 4.0 requirements. Computers & Industrial Engineering, 127, 925-953.
Murugesan, Rajkumar & S.K, Sudarsanam & Shanmugasundaram, Sivarajan. (2018). Industry 0 for Sustainable Development. Annual Technical Volume of the Institution of Engineers.
Nara, Elpidio & Costa, Matheus & Baierle, Ismael & Schaefer, Jones & Benitez, Guilherme & Santos, Leonardo & Benitez, Lisianne. (2020). Expected Impact of Industry 4.0 Technologies on Sustainable Development: A study in the context of Brazil's Plastic Industry. Sustainable Production and Consumption. 25,102-122.
Olah, Judit & Aburumman, Nemer & Popp, Jozsef & Khan, Muhammad & Haddad, Hossam & Kitukutha, Nicodemus & Popp, Jozsef & Jammu, Azad & Kashmir. (2020). Impact of Industry 4.0 on Environmental Sustainability.12(11),4674.
Palmer, Robert. (2009). Skills development, employment and sustained growth in Ghana: Sustainability challenges.International journal of Educational Development. 29(2),133-139.
Petrakis, Panagiotis & Kostis, Pantelis. (2020). Sustainable Development.The Evolution of the Greek Economy: Springer International Publishing.
Pezenatto, Leonardo & Coti-Zelati, Paolo & Araujo, Davi. (2020). Industry 4.0 and sustainable development in the automotive sector industria 4.0. 10(1), 26-54.
Ren, Jingzheng, Hanwei, Liang, Liang, Dong, Zhiqiu, Gao, Chang He, Ming, Pan & Lu, Sun (2017). Sustainable development of sewage sludge-to-energy in China: Barriers identification & technologies prioritization, Renewable & Sustainable Energy Reviews. 67(c), 384-396.
Stave, Krystyna (2010). Participatory System Dynamics Modeling for Sustainable Environmental Management: Observations from Four Cases, Sustainability. 2(9), 2762-2784.
Stock ,T & Seliger, G.(2016). Opportunities of Sustainable Manufacturing in Industry 4.0. Procedia CIRP. 40(1),536-541.
Stock, T., Obenaus, M., Kunz, S., & Kohl, H. (2018). Industry 4.0 as Enabler for a Sustainable Development: A Qualitative Assessment of its Ecological and Social Potential. Process Safety and Environmental Protection.118, 254-267.
Yadav, Gunjan & Kumar, Anil & Luthra, Sunil & Garza-Reyes, Jose Arturo & Kumar, Vikas & Batista, Luciano. (2020). A Framework to Achieve Sustainability in Manufacturing Organisations of Developing Economies using Industry 4.0 Technologies’ Enablers. Computers in Industry.122,103280.