Industry 4.0 : Emerging Themes and Future Research Avenues

AUTHORS :

S. N. Tripathy

DOI :

CP2020/OCT-MAR/ARTCL1

ABSTRACT :

The present paper with the help of secondary sources of data attempts to capture the major events that shaped the course of cooperative movements in Odisha. The paper portrays the prevailing socio-economic factors and key events which contributed to the development of cooperatives in different phases and its genesis and growth trend in Odisha in the national perspectives.

REFERENCES :

Bengal under the Lieutenant-Governors, Vol. I. In C. Buckland – Northcok, S. (n.d.).
Madras Provincial Banking Enquiry Committee Report, 5 Vols. Madras. – Government of Madras. (1930).
Contractual Labour in Agricultural Sector. Discovery Publishing. – Tripathy, S. (2000).
Co-operative Movement in Odisha: Highlights of Progress. Odisha Review, February – March, 51-54. – Senapati, S. (2012).
Annual Activity Report 2018-19. Cooperation Department. – Government of Odisha.

KEYWORDS :

Cooperatives Movements, Rural credit, Money lenders, Farmers.

Download Article PDF

Previous Issues

Cooperative Perspective Volume-2020

Cooperative Perspective Volume-2019

Special Issues

Cooperative Perspective Volume-2018

Cooperative Perspective Volume-2017

Cooperative Perspective Volume-2016

Cooperative Perspective Volume-2015

Cooperative Perspective Volume-2014

Cooperative Perspective Volume-2013

AUTHORS :

Manisha Paliwal, Saba Sayed

DOI :

CP2021/October-December2021/ARTCL5

ABSTRACT :

The fourth industrial revolution has received much interest in the last few years from all over nation. There are still no comprehensive reviews of the state of the art in this new industrial revolution phase in the existing studies. The goal of this research is to close this gap by looking into intellectual advancements in Industry 4.0.

A comprehensive literature study was conducted to examine scholarly publications released online between 2013 and 2020 on the topic of Industry 4.0. This research uses a bibliometric strategy based on a thorough assessment of the literature to investigate the influence of Industry 4.0 from a macro viewpoint. The major focus of this study is to conduct comprehensive evaluation and analysis of academic development in issues linked to the industry 4.0 for giving knowledge into the topic’s past, present, and future. Our findings have significant theoretical and research consequences. They highlight the conceptual framework and narrative growth of this study area, allowing people to the field to have a critical view of the foundational articles as well as how the study topics have progressed till date.

A summary of Fourth industrial revolution is obtained by (1) listing notable publications and powerful conferences that publish Industry 4.0-related data, (2) illustrating the relevance of Industry 4.0 using keyword classifier, (3) the detection of existing studies initiatives as well as places in the present literature that have been overlooked recently; (4) an outline of Industrial 4.0 industry norms, technology, and infrastructure that are being utilised quite often. The study shows that there were 33 articles during 2016, followed by 687 in 2018 but increased rapidly during 2020 containing 2853 articles based on Industry 4.0. During the research period, the Relative Growth Rate (RGR) and Doubling Time (DT) shows higher and declining trend.

Our investigation may be used by experts to learn more about how Industry 4.0 is being implemented in different industries. Experts may understand the benefits of Industry 4.0 and bring awareness to respective business units.

REFERENCES :

1. Atzori, Luigi, Antonio Iera, and Giacomo Morabito. (2010). “The Internet of Things: A survey.” Computer Networks 54 (15): 2787–2805.
2. Aulbur, W. and H.V. Singh (2014), Next Generation Manufacturing: Industry 4.0: A Look at the Changing Landscapes in Manufacturing, CII and Roland Berger, New Delhi, September.
3. Bagheri, S. Yang, H.A. Kao, J. Lee (2015), Cyber-physical Systems Architecture for Self-Aware Machines in Industry 4.0 Environment, IFAC Conference 38-3 1622–1627.
4. Bahrin, M., Othman, M., Azli, N.H., & Talib, M.F. (2016). Industry 4.0: A Review on Industrial Automation and Robotic.
5. Colantoni, A., Cecchini, M., Egidi, G., Saporito, M.G. and Zambon, I. (2019), “Revolution 4.0: Industry vs. Agriculture in a Future Development for SMEs”, Processes, Multidisciplinary Digital Publishing Institute, Vol. 7 No. 1, p. 36.
6. Chaitanya Vijay Bidnur (2020), A Study on Industry 4.0 Concept, International Journal of Engineering Research & Technology (IJERT) Volume 09, Issue 04 (April 2020),
7. Chen, J. Y., Tai, K. C., & Chen, G. C. (2017). Application of programmable logic controller to build-up an intelligent industry 4.0 platform. Procedia CIRP, 63, 150-155.
8. Dallasega, P., Rauch, E. and Linder, C. (2018), “Industry 4.0 as an enabler of proximity for construction supply chains: A systematic literature review”, Computers in Industry.
9. Hozdic (2015), Smart Factory for Industry 4.0: A Review, International Journal of Modern Manufacturing Technologies, ISSN 2067–3604, (Vol. VII, No. 1 / 2015) 28-35.
10. Almada-Lobo (2015), The Industry 4.0 revolution and the future of Manufacturing Execution Systems (MES), Journal of Innovation Management JIM 3, 4 16-21.
11. Schuh, T. Potente, C. Wesch-Potente, A.R. Weber ( 2014 ), Collaboration Mechanisms to increase Productivity in the Context of Industry 4.0, Robust Manufacturing Conference (RoMaC 2014), Procedia CIRP 19 51 – 56.
12. Haseeb, M., Hussain, H. I., Slusarczyk, B., & Jermsittiparsert, K. (2019). Industry 4.0: A solution towards technology challenges of sustainable business performance. Social Sciences, 8(5), 154.
13. Lee, H.A. Kao, S. Yang (2014), Service innovation and smart analytics for Industry 4.0 and big data environment, Product Services Systems and Value Creation. Proceedings of the 6th CIRP Conference on Industrial Product-Service Systems, Procedia CIRP 16 3 – 8.
14. Witkowski (2017), Internet of Things, Big Data, Industry 4.0- Innovative Solutions in Logistics and Supply Chains Management, 7th International Conference on Engineering, Project, and Production Management, Procedia Engineering 182, 763-769.
15. Sipsas, K. Alexopoulos, V. Xanthakis, G. Chryssolouris (2016), Collaborative maintenance in flow-line manufacturing environments: An Industry 4.0 approach, 5th CIRP Global Web Conference Research and Innovation for Future Production, Procedia CIRP 55 236 – 241.
16. Landherr, M., Schneider, U., & Bauernhansl, T. (2016). The Application Center Industrie 4.0-Industry-driven manufacturing, research and development. Procedia Cirp, 57, 26-31.
17. Li, X., Wan, J., Lai, C.-F., Wang, S., Vasilakos, A. V. and Li, D. (2015), “A review of industrial wireless networks in the context of Industry 4.0”, Wireless Networks, Springer US, Vol. 23 No. 1, pp. 23–41.
18. Liao, Y., Deschamps, F., Freitas, E.D. and Loures, R. Past (2017), present and future of Industry 4.0 – a systematic literature review and research agenda proposal. International Journal of Production Research 55 (12), 3609–3629.
19. Lezzi, M., Lazoi, M. and Corallo, A. (2018), “Cybersecurity for Industry 4.0 in the current literature: A reference framework”, Computers in Industry, Elsevier, Vol. 103, pp. 97–110.
20. Lu, Y. (2017) ‘Industry 4.0: a survey on technologies, applications and open research issues’, Journal of Industrial Information Integration, Vol. 6, pp. 1-10.
21. Machado, C. G., Winroth, M. P., & Ribeiro da Silva, E. H. D. (2020). Sustainable manufacturing in Industry 4.0: an emerging research agenda. International Journal of Production Research, 58(5), 1462-1484.
22. Mahapatra, G. (1994). Correlation between growth of publications and citations: A study based on growth curves: Annals of Libraries and Information StudiesVol.41(1) ,March 1994,8-12
23. MAK. Bahrin, MF. Othman, NH. Nor, MFT. Azli (2016), Industry 4.0: A Review on Industrial Automation and Robotic, Jurnal Teknologi (Sciences & Engineering), eISSN 2180–3722 137–143.
24. Marilungo, E., Papetti, A., Germani, M., & Peruzzini, M. (2017). From PSS to CPS design: a real industrial use case toward Industry 4.0. Procedia Cirp, 64, 357-362.
25. Rüßmann, M. Lorenz, P. Gerbert, M. Waldner. (2015), Industry 4.0: The Future of Productivity and Growth in Manufacturing Industries, 1-14.
26. Nardo, M. D., Forino, D., & Murino, T. (2020). The evolution of man– machine interaction: The role of human in Industry 4.0 paradigm. Production & Manufacturing Research, 8(1), 20-34.
27. Nishimura,T. (2018), “ Big Data Analytics Market – Future Scope in India”, Silicon India, September,12.
28. Oesterreich, T. D., & Teuteberg, F. (2016) ‘Understanding the implications of digitization and automation in the context of Industry 4.0: A triangulation approach and elements of a research agenda for the construction industry’, Computers in Industry, Vol. 83, pp. 121-139.
29. Olah, J.; Aburuman, N.; Popp, J.; Asif, M.K.; Haddad, H.; Kituktha, N.(2020), Impact of Industry 4.0 on Environmental Sustainability. Sustainability 2020, 12, 4674.
30. Pereira, G.B., Santos, A., de P.L. and Cleto, M.G. (2018), “Industry 4.0: glitter or gold? A systematic review”, Brazilian Journal of Operations & Production Management, Vol. 15 No. 2, pp. 247–253.
31. Roehricth, K. (2016), Study of Emerging Markets, with Special Focus on Asia, RockEU, August 16.
32. Simons, P. Abé, S. Neser (2017), Learning in the AutFab – the fully automated Industrie 4.0 learning factory of the University of Applied Sciences Darmstadt, 7th Conference on Learning Factories, CLF 2017, Procedia Manufacturing 9, 81 – 88.
33. Wang, J. Wan, D. Li, C. Zhang (2016), Implementing Smart Factory of Industry 4.0: An Outlook, International Journal of Distributed Sensor Networks, Article ID 3159805, 1-10.
34. Saldivar, A. A. F., Li, Y., Chen, W. N., Zhan, Z. H., Zhang, J., & Chen, L. Y. (2015, September). Industry 4.0 with cyber-physical integration: A design and manufacture perspective. In 2015 21st international conference on automation and computing (ICAC) (pp. 1-6). IEEE.
35. TNN and Agencies (2016), “Raymond to Replace 10000 Jobs with Robots in Next 3 Years,” The Economic Times, September 16.
36. Thangaraj, Jeevitha & Lakshmi Narayanan, Ramya. (2018). Industry 1.0 To 4.0: The Evolution of Smart Factories.
37. Trappey, A. J., Trappey, C. V., Govindarajan, U. H., Chuang, A. C., & Sun, J. J. (2017) ‘A review of essential standards and patent landscapes for the Internet of Things: A key enabler for Industry 4.0’, Advanced Engineering Informatics, Vol. 33, pp. 208- 229.
38. Vaidya, S., Ambad, P., & Bhosle, S. (2018). Industry 4.0–a glimpse. Procedia Yin, Y., Stecke, K. E., & Li, D. (2018). The evolution of production systems from Industry 2.0 through Industry 4.0. International Journal of Production Research, 56(1-2), 848-861.