This document discusses Industry 4.0 and its key technologies including the Industrial Internet of Things, cyber-physical systems, and cloud computing. It outlines the benefits of Industry 4.0 such as vertical and horizontal integration, customization, and optimization. Changes due to Industry 4.0 include its Reference Architecture Model (RAMI 4.0) and European Union programs supporting factories of the future. While some Brazilian industries are starting to adopt digital technologies, most remain focused on earlier industrial revolutions.

1. INTROSPECTIONS ON INDUSTRY 4.0
ENG.: THIAGO BUENO DA SILVA
MAT.: 728
TP525 – REDES CONVERGENTES
PROF.: ANTÔNIO MARCOS ALBERTI

2. OUTLINE
o OBJECTIVE
o INTRODUCTION
o KEY TECHNOLOGIES
o DISCUSSION
o Benefits of Industry 4.0
o Changes due to Industry 4.0
o Reference Architecture Model for the Industry 4.0 (RAMI 4.0)
o Factories of the Future – FP7 & Horizon 2020
o CONCLUSION
o REFERENCES
2

3. OBJECTIVE
3
 Investigate what Industry 4.0 stands for and its implications.

4. INTRODUCTION
4

5. INDUSTRY 4.0 (I4.0)
5
Source: O. Scalabre. “Embracing Industry 4.0 – and Rediscovering Growth.” [Online]. Available: https://www.bcg.com/en-br/capabilities/operations/
embracing-industry-4.0-rediscovering-growth.aspx.

6. I4.0
6

7. KEY TECHNOLOGIES
7
Industrial Internet
of Things
(IIoT)
Cyber Physical Systems
Cloud Computing

8. CLOUD COMPUTING
8
Raw data Intelligence

9. INDUSTRIAL INTERNET OF THINGS
9
Source: Menozzi, L & National Instruments. “Engineering the Industrial Internet of Things (IIoT) for Predictive Maintenance. Available: http://www.imekotc10-
2017.sztaki.hu/documents/presentations/National%20Instruments_Imeko%20Budapest__MENOZZI.pdf

10. CYBER-PHYSICAL SYSTEMS
10
Fonte: Carbot, Jordi. “Modeling Cyber-Phisical Systems – Panel at MiSE 2016.” Available: https://modeling-languages.com/modeling-cyber-physical-systems-
panel-at-mise-2016/.

11. KEY TECHNOLOGIES
11
Industrial Internet
of Things
(IIoT)
Cyber Physical Systems
Cloud Computing

12. BENEFITS OF INDUSTRY 4.0
 Vertical integration
12

13.  Horizontal integration
13
BENEFITS OF INDUSTRY 4.0

14. BENEFITS OF INDUSTRY 4.0
 Customized experience
14

15. BENEFITS OF INDUSTRY 4.0
 Optimization
15
Source: P. Goncalves, J. Ferreira, P. Pedreiras, and D. Corujo, “Adapting SND datacenters to support cloud IIOT applications,” in 2015 IEEE 20th Conference on
Emerging Technologies Factory Automation (ETFA), Sept 2015, pp. 1–4. [Online]. Available: http://dx.doi.org/10.1109/ETFA.2015.7301641.
 SDN controller:
➢ Topology’s management
➢ Resource’s allocation
➢ Admission control

16. CHANGES DUE TO INDUSTRY 4.0
16

17. RAMI 4.0
17
Source: A. Rojko, “Industry 4.0 Concept: Background and Overview,” International Journal of Interactive Mobile Technologies (iJIM), vol. 11, no. 5, pp. 77–90, Jul. 2017. [Online].
Available: https://doi.org/10.3991/ijim.v11i5.7072

18. FOF – FP7 & H2020
18
✓ FoF @ FP7 (2007-2013): 150 projects.
✓ FoF @ H2020 (2014-2020): On going.
✓ AUTOWARE – Wireless Autonomous,
Reliable and Resilient ProductIon
Operation Architecture for Cognitive
Manufacturing;
✓ ScalABLE 4.0 – Scalable Automation for
Flexible production systems.

19. CONCLUSION
19
Source: J. McGrattan, “Industry 4.0 To Become More of A Reality For Manufacturers in 2018,” [Online]. Available: https://www.3xcorp.com/industry-4-0-become-reality-
manufacturers-2018/.

20. 20
Thank You!

21. REFERENCES
21
[1] A. Rojko, “Industry 4.0 Concept: Background and Overview,” International
Journal of Interactive Mobile Technologies (iJIM), vol. 11, no. 5, pp. 77–90, Jul.
2017. [Online]. Available: https://doi.org/10.3991/ijim.v11i5.7072.
[2] P. Goncalves, J. Ferreira, P. Pedreiras, and D. Corujo, “Adapting SND
datacenters to support cloud IIOT applications,” in 2015 IEEE 20th Conference
on Emerging Technologies Factory Automation (ETFA), Sept 2015, pp. 1–4.
[Online]. Available: http://dx.doi.org/10.1109/ETFA.2015.7301641.
[3] Menozzi, L & National Instruments. “Engineering the Industrial Internet of
Things (IIoT) for Predictive Maintenance. Available: http://www.imekotc10-
2017.sztaki.hu/documents/presentations/National%20Instruments_Imeko%
20Budapest__MENOZZI.pdf.
[4] S. Wang, J. Ouyang, D. Li, and C. Liu, “An integrated industrial
ethernet solution for the implementation of smart factory,” IEEE
Access, vol. 5, pp. 25 455–25 462, 2017. [Online]. Available:
http://dx.doi.org/10.1109/ACCESS.2017.2770180.
[5] Y. Ai, M. Peng, and K. Zhang, “Edge computing technologies
for internet of things: a primer,” Digital Communications and
Networks, vol. 4, no. 2, pp. 77 – 86, 2018. [Online]. Available:
https://doi.org/10.1016/j.dcan.2017.07.001.

22. REFERENCES
22
[6] W. Dai, P. Wang, X. Guan, L. Riliskis, and V. Vyatkin, “A Cloud-Based
Decision Support System for Self-Healing in Distributed Automation
Systems Using Fault Tree Analysis,” IEEE Transactions on Industrial
Informatics, vol. 14, no. 3, pp. 989–1000, Mar. 2018. [Online].
Available: http://dx.doi.org/10.1109/TII.2018.2791503.
[7] Factories of Future. [Online]. Available: http://ec.europa.eu/research/
industrialtechnologies/factories-of-thefutureen.html.
[8] O. Scalabre. “Embracing Industry 4.0 – and Rediscovering Growth.”
[Online]. Available: https://www.bcg.com/en-br/capabilities/operations/
embracing-industry-4.0-rediscovering-growth.aspx.

23. BONUS: WHAT ABOUT BRAZIL?
23
✓ Indústria 2027 – Riscos e
Oportunidades do Brasil diante de
Inovações Disruptivas.
✓ Plan to evolve with digitalization
and new technologies
✓ Only 2% of Brazilian’s industry is
ready for Industry 4.0
✓ 76% of Brazilian’s industry is still
stuck on the First or Second
Industrial Revolution.
Source: “Como Construir o Brasil 4.0”, Exame – Edição Especial, no. 10, ed. 1162, ano 52, 2018.