Impact for Educational Institutions, Internet of things, Digital Enablers, New Age Production, Smart Factory, New digital industrial technology, Interdisciplinary Thinking, Digital Work Place, 3d printing,
2. “deal quickly with the fusion of the
online world and the world of
industrial production.“
Angela Merkel, German chancellor,
January 2015, at the
World Economic Forum in Davos
3. Fourth industrial revolution
1784
Industry 1.0: Water/steam power/
Mechanical Production Equipment
1870
Industry 2.0: Electric power/Division of Labour/
Mass Production
1969
Industry 3.0: Computing power/ Electronics /IT/Automation
2015
Industry 4:0: Internet of Things Power /IOT of People/
IOT of Data/ OT of Services
Tenure of each revolution has been diminishing
4. Definition of Industry 4.0
A confluence of trends and
technologies promises to
reshape the way things are
made.
Next phase in the digitization of the
manufacturing sector
New digital industrial technology
6. Four functional pillars or the enablers
of Industry 4.0
1. Big Data,
2. Internet of Things,
3. Internet of Services, and
4. Integrated Industries
Three main aspects,
1. Technology,
2. Collaboration, and
3. Processes.
Converge into
7. Image Processing is an Important Component of
Industry 4.0 in future production and business
processes
• new and more efficient business models
through applications using image
processing systems
• automated, self-organized production
based on extensive data collection and
visually identified information
• more efficient production through
extensive networking of vision systems in
operational processes.
8. Skills: Digital Skills
Interdisciplinary Thinking is the Key
There will be a shift toward design thinking & System thinking
instead of production thinking at all level of the hierarchy
9. Engineering skill sets would be clarified in coming years,
but soft skills would emerge as an important aspect of
engineers. Collaboration among different disciplines is of
paramount importance in Industry 4.0.
10. • Digital HR
• Digital Factory
• Digital Work Place
• Digital Customer
Experience
• Digital Trust
• Digital Business
Model
• Digitally Enhanced
Products
• Digital Engineering
• Digital Skills &
Talents
• Digital Culture &
Transparency
Rewritable Digital paper, Digital wallet
11. Smart Factory
Industrial Internet
Digital Factory
Internet of Data
Internet of People
Internet of services
Internet of Things
Cyber-Physical Production System
3D Printing
Data Analytics
Data Infrastructure
IOT
IOT of Cars
intelligent energy management data
system (iEMDS of BMW)
12. New Subject Titles
• Artificial Intelligence
• Big Data
• Python
• R
• Pega
• Robotics
• Biotech
• Nanotech
• Genetics
• V2X communication and VRM
• prescriptive analytics
• Information & Communication
Technology ICT
• Electronics
• 3D Printing
• Sensor Technology
• OBDII and CAN
• Drones
• Digital enablers
13. New Job Titles
• Data scientists,
• User interface designers
• Cyber Security Officer
• cyber-secure architectect
•
• Digital innovation managers
• Digital Champions
• Digital Quality Management
• Digital Business Leadership
15. India's first smart factory — moving from automation to
autonomy — where machines speak
with each other, is being set up in
Bengaluru.
India's very own smart factory, the first one, is making
progress at the Indian Institute of Science's
(IISc) Centre for Product Design and
Manufacturing (CPDM) with a seed funding
from The Boeing Company.
INDIA
16.
17.
18. An Indian woman employee of Scania works at the company's new manufacturing facility in Narasapura, some 50 Kilometers
(31 Miles) northeast of Bangalore, India, Monday, March 30, 2015. The Swedish commercial vehicle company announced the
inauguration of its bus manufacturing facility Monday. The plant, which has a capacity of making about 1,000 units per year,
shall be serving the Indian market and becoming a hub for exports to other markets in Asia, a company release said.(AP
Photo/Aijaz Rahi)
19. The Indian Institute of Science (IISc) is building India’s first smart factory in Bengaluru
with a seed funding from the Boeing Company.
Bosch, a German auto component manufacturer will begin implementation of smart
manufacturing at its 15 centres in India by 2018.
General Electric has invested USD 200 million in the facility in its only multi-modal
factory in India where digitally interlinked supply chains, distribution networks, and
servicing units form part of this intelligent ecosystem.
20. "India's IoT [Internet of Things] industry is
expected be worth US$ 15 billion by 2020,
which means our share will be a less than 10%
of the global opportunity.... India will need to
invest in skill and technology development as
well as R&D facilities to develop the local
market”
21. Industry 4.0 and the Internet of Things (IoT) impresses Original Equipment Manufacturers (OEM) and
end users alike. Production and the digital world come together, making factory automation more
flexible, increasing energy efficiency, linking logistics processes more closely, optimising the value chain
– and all this is happening in process automation too.
22. A sustainable partnership model
is essential between
Government, Private firms, Industry bodies,
Research and Financing institutions for
promoting Industry 4.0.
23. FAQ
• Is there an Indian version of Industry 4.0 for emulation?
• What would be the key attributes of a future factory in the Indian
milieu?
• Can India leapfrog into the age of Smart Manufacturing- skipping key
phases which China transitioned across over the last two decades?
• How can Industry 4.0 impact small and medium-end enterprises
& Educational Institutions in India?
• What are the various policy instruments that need to be formulated
for effective adoption of Industry 4.0 technologies/applications?
CPPS- Boundary between Real and Virtual world. Digital trust is a complicated issue, but it’s based on three pillars: transparency, legitimacy and effectiveness
prescriptive analytics: where a proactive approach is used to find out when and how the equipment might fail prior to actual breakdown; the related benefits are cost, process efficiency and even equipment self-learning from surrounding environments