From the first British Industrial Revolution to the Fourth Industry Revolution otherwise known as industry 4.0, there has been continuous digitalization revolution that is changing the way we live, interact and communicates as well as transacting. Today manufacturing companies are moving away from mass production to mass customization production due to radical transformation of technological advancement which is revolutionizing the entire industry. The world is witnessing radical transformation that is changing the landscape of manufacturing industry. With the industry 4.0 begins to take shape, traditional manufacturing is in the zenith of radical digital transformation.
ARE YOU READY FOR THE RADICAL TRANSFORMATION OF THE INDUSTRY OF THE FUTURE (INDUSTRY 4.0)
2. Table of Content
Motivation
Introduction
Industrial Revolution
(Industry 4.0)
Industry 4.0
Vision of Industry 4.0
Reasons for Industry 4.0
Components of Industry 4.0
Characteristics of Industry 4.0
Design Principles of Industry 4.0
Essential eight technologies
The Benefits and the Challenges
Race for the future
Business life example
3. Motivation
Modern approach to management (Management 4.0)
The Fourth Industrial Revolution (Industry 4.0)
Radical and fundamental metamorphosis of technological advancement
from the initial 18th century British Industrial Revolution to the Industry of
the Future.
4. Objective
By the end of this presentation, student will be able to know;
Originate of industry 4.0
Pillars and key emerging technology in the Fourth Industrial revolution
Impact of the industry 4.0 and future challenges
Business life examples
6. Introduction
We have been surrounded by advanced technologies which are transforming
every aspect of our life as well as the entire manufacturing processes.
From the First British Industrial Revolution to the Fourth Industry
Revolution otherwise known as industry 4.0, there has been continuous
digitalization revolution that is changing the way we live, interact and
communicates as well as transacting.
7. Introduction…
The 18th century and 19th century period were predominately agrarian rural
societies in Europe and growth of industries with large factories, mass
production, increasing demand for workforce and desire for high
profitability.
The 18th-century initial industrial revolution laid fundamental landmark to
modern technological change and urban societies today.
10. First Industrial Revolution
Period between 1760-1830
Witnessed the exponential growth of
machinery, mechanization in production
with the help of water and steam power
Initially, before the First Industrial
Revolution, manufacturing was done with
simple tools and there were unskilled
workers who worked under unbearable
conditions
11. Second Industrial
Revolution
Period between 1870-1969
Witnessed electric power generator
Replaced water and steam-powered
engines
Large-scale production, large factories
such as steel revolution in manufacturing
factories
Advent of the assembly line, and electric
power revolution, telephone as well as
refrigerators and washing machines.
12. Third Industrial
Revolution
Period between 1970-1990 (digital
revolution).
Categorized by automating production
and information technology.
Comes with an enormous change in
industries with digitalization that
transformed manufacturing and
automation
This period witnessed exponential
technological changes like 3D printing, Big
Data, modern technology in mechanical
devices instead of analogue electronics
13. Fourth Industrial
Revolution
4IR or Industrial 4.0 is witnessing a
drastically and exponential change that is
transforming how people working with
devices like computers to electronic
devices working and helping human
beings.
The Fourth Industrial is a continuation of
the Third Industrial Revolution that was
categorized with digitalization and
automation manufacturing
14. Fourth Industrial Revolution…
The Fourth Industrial Revolution is a cyber-physical system characterized by a physical, digital
and biological sphere which is transforming and impacting all work of life including
economics and industries.
İt is witnessing the growth of 3D printing, Intellectual property (IP), Artificial Intelligence (AI),
smart robots and automation, quantum computing, Internet of Things (IoT), drones, the
blockchain, and use of Big data.
The Fourth Industrial Revolution gained interest from investors and world leaders and become
a field of importance of conversation and debates at the World Economic Forum chaired by
founder and Executive Chairman, Klaus Schwab.
Klaus Schwab stated that “the question is not am I going to be disrupted but when is
disruption coming, what form will it take and how will it affect me and my organization?”
17. Industry 4.0
The term “Industry 4.0” originated in 2011 at the Hanover Fair in
Germany.
Industry 4.0 is known as “Industrie 4.0’’ in Germany, “Connected
Enterprise” in the United States and the “Fourth Industrial Revolution” in
the United Kingdom
Industry 4.0 or “Industrie 4.0 came as a result of the Germany initiative to
enhance competitiveness in a manufacturing industry. Germany Federal
Government vision for a high-Tech strategy for 2020 gave birth to the
buzzword “Industrie 4.0”.
18. Definition of the Term
Despite this widely discussed buzzword, there is no clear definition of the term.
Industry 4.0 was defined in terms of Smart Industry or “Industrie 4.0” which refers
to the technological evolution from embedded systems to cyber-physical
systems.
Industry 4.0 can also be referred to as “a name for the current trend of automation
and data exchange in manufacturing technologies, including cyber-physical
systems, the Internet of things, cloud computing and cognitive computing and
creating the smart factory” (Wikipedia source accessed November, 2018).
20. Reasons for Industry 4.0
Solution for manufacturing challenges
Manufacturing transformation:
Co-producer’s consumers.
(“Made-for-Me”). Produce the right product for the consumers at the
right time and for the right price.
21. Reasons for Industry 4.0…
Humans into the center of production. Enriched and humanized work.
Coordinated work..
Sustainable prosperity. The traditional manufacturing will soon be
surrounded and cornered by the modern, flexible Fourth Industrial
Revolution industry of the future
22. Components of Industry
4.0
Search Term (Group)
Number of Publications in
Which
Search Term (Group)
Occurred
Cyber-Physical Systems, Cyber-Physikalische Systeme,
CPS 46
Internet of Things, Internet der Dinge 36
Smart Factory, intelligente Fabrik 24
Internet of Services, Internet der Dienste 19
Smart Product, intelligentes Produkt 10
M2M, Machine-to-Machine 8
Big Data 7
Cloud 5
These components were identified based on
the number of publication in which the
search term occurred and often cited
definitions
Cyber-physical System (CPS),
Internet of Things (IoTs),
Internet of Service (IoSs) and
Smart Factory (SF).
23. Characteristics of Industry 4.0
Vertical networking of Smart Production System
Horizontal Integration via a new generation of global value networks
Through-engineering across the entire value chain
Acceleration through exponential technologies
24. Design Principles of
Industry 4.0
Cyber-Physical
Systems
Internet of
Things
Internet of
Services
Smart
Factory
Interoperability
X
X X X
Virtualization
X
- - X
Decentralization X - - X
Real-Time Capability - - - X
Service Orientation - - X -
Modularity - - X -
These principles support companies in
identifying and implementing Industry 4.0
scenarios
Interoperability
Virtualization
Decentralized decisions
Real Time Capabilities
Services Orientation.
Modularity
25. Nine Pillars of Industry
4.0
We are in the midst of a fourth wave of
technological advancement: the rise of new
digital industrial technology known as
Industry 4.0, a transformation that is
powered by nine foundational technology
advances.
26. Essential eight
technologies
Drone: provides new modes for
surveillance, survey and delivery
3D printing: potential to turn any business
into factory
AI: potential to create new product ad
service
Robots: Automate, assist human
Blockchain: Distributed ledger
Virtual reality: open new possibility for
simulation
27. The Benefits and the Challenges
Benefits
Industry 4.0 will truly revolutionize the way
manufacturing processes work. However, it’s
important to weigh the advantages and the
challenges that companies may face
Optimization
Customization
Pushing Research
Challenges
Security
Capital
Employment
Privacy
28. RACE FOR THE
FUTURE.
The BCG survey report indicates that 19%
of German companies have implemented
either a full Industry 4.0 concept (such as a
smart factory) or first measures toward a
concept (such as the introduction of
autonomous robots), compared with 16% of
US companies. German companies are off
to a somewhat faster start of
implementation despite the common
perception that US companies are the front-
runners in embracing digital
transformation
29. Examples of
İndustry 4.0 in business
life
Logistics.
Smart Manufacturing (Audi,
Siemen companies)
Construction (Semi-Automated
Mason or SAM-Robot)
Good at building walls it could take
over the construction industry
increase productivity while
reducing overall labor costs.
30. Conclusion
Industry 4.0 will affect our identity, our sense of privacy, our notions of
ownership, our consumption patterns, the time we devote to work and
leisure, and how we nurture the relationship (Klaus Schwab (2016).
There should be a coexistence between technology and humans. The
technology should support humans and only handles the complex
situation in manufacturing that is almost impossible for humans to do.
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33. Reference…
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34. Reference…
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Notas del editor
CPSs are systems that link the physical world (e.g., through sensors or actuators) with the virtual world of information processing.