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Library of Congress Cataloging-in-Publication Data
ISBN 978-1-119-90485-4
Cover image: Pixabay.Com
Cover design by Russell Richardson
Set in size of 11pt and Minion Pro by Manila Typesetting Company, Makati, Philippines
5.5
5.7
5.3.4
6.5
6.6
6.8
7.3.1
6.8.3.3
6.8.3.4
Manal Fawzy, Alaa El Din Mahmoud and Ahmed M. Abdelfatah
9.1
Sushree Bibhuprada B. Priyadarshini, Suraj Kumar Dash, Amrit Sahani, Brojo Kishore Mishra and Mahendra Prasad Nath
The Industry 4.0 vision has been baking for quite a while, but the enabling technologies are now ripe enough to turn this vision into a grand reality sooner rather than later. Known by many as the fourth industrial revolution, it involves the infusion of deeper and more decisive technology-enabled automation into manufacturing processes and activities. Several illustrious information and communication technologies (ICT) are being used to attain the acceleration and augmentation of the manufacturing process, and this book explores and discloses the recent advancements in blockchain technology and artificial intelligence and their crucial impact on realizing the goals of Industry 4.0. In other words, it provides a conceptual framework and roadmap for decision makers to make this transformation. In addition to undergraduate and postgraduate students with big data analytics as part of their curriculum, this book will be useful to students who want to develop and deploy their skills to achieve a thorough knowledge of analytics and have an in-depth education experience that pertains to their unique interests. Moreover, acknowledging the huge demands of industry professionals today, this book has also been designed to create trained computer science graduates to fulfill industry requirements. Furthermore, artificial intelligence applications in the industrial sector are explored, including IoT technology. Up-to-date technology and solutions in regard to the main aspects of applications of artificial intelligence techniques in Industry 4.0 are also presented, thereby covering the training needs of the scientific research community. Finally, for your convenience, the information presented in the book’s well-conceived chapters is summarized below.
–
Chapter 1 is a systematic literature review on how Industry 4.0 has been remarkably successful due to the multifaceted specialisms in digitalization and artificial intelligence (AI). – Chapter 2 starts with an overview of the evolution of Industry 4.0 that enabled digital transformation in manufacturing
Preface and other related industries. Next, the chapter dwells on how cloud computing can economically support IoT on a large scale.
– Chapter 3 discusses the high importance of the supply chain in manufacturing businesses, especially in fast-moving consumer goods (FMCG) industries, which are one of the most important industries in our daily lives. It provides a framework for using this technology in the supply chain in these industries.
– Chapter 4 provides a comprehensive framework for accelerating supply chain decisions with respect to Industry 4.0.
– Chapter 5 briefly introduces IoT and deep learning models. Subsequently, a detailed description of the deployment of deep learning methods in IoT networks for industrial application is presented.
–
Chapter 6 attempts to show several ideas about the functionalities of blockchain technology that could be widely applied in a wide range of circumstances.
– Chapter 7 aims to identify the approaches that can be used to identify value depending on the factors in the datasets and correct the missing data value, which can be used later on to analyze the data better.
– Chapter 8 presents the novel privacy issues caused by the advent of AI techniques in a cyber-physical system ecosystem. It then moves on to discuss the measures used to mitigate such issues.
– Chapter 9 reviews most IoT-based environmental applications for a smart environment, agriculture, and smart environmental monitoring of air, soil, and water.
– Chapter 10 outlines many of the IoT protection threats or problems and countermeasures in a level-by-level manner.
– Chapter 11 reviews all the opportunities presented by Industry 4.0 and the challenges involved in implementing it.
– Chapter 12 discusses the manufacturing techniques of Industry 4.0 along with their various opportunities and challenges.
– Chapter 13 describes the essence of Industry 4.0 along with its primary objectives and basic features.
Chapter 14 proposes methods for improving multimedia encryption standards in explainable artificial intelligence using residue number systems for security.
– Chapters 15 and 16 appropriately complete the book focusing on “Market Trends with Cryptocurrency Trading in Industry 4.0” and Blockchain and Its Applications in Industry 4.0.
Jyotir Moy Chatterjee
Kathmandu, Nepal
Harish Garg
Patiala, India
R.N. Thakur
Kathmandu, Nepal
October 2022
1 Artificial Intelligence—The Driving Force of Industry 4.0
Hesham Magd1*, Henry Jonathan2, Shad Ahmad Khan3 and Mohamed El Geddawy4
1Quality Assurance & Accreditation, Faculty of Business and Economics, Muscat, Sultanate of Oman
2Department of Transportation, Logistics, and Safety Management, Faculty of Business and Economics, Muscat, Sultanate of Oman
3College of Business, University of Buraimi, Al-Buraimi, Sultanate of Oman
4Prince Mohammed University, Al Khobar, Kingdom of Saudi Arabia
Abstract
The 21st century reminds the dawn of the 4th industrial revolution (IR), which has brought new frontiers of technology utilization to industries. Industry 4.0 chiefly relays from the 3rd revolution, taking further the application of computer and automation domain to the current century. Industry 4.0 already has shown remarkable success due to the multifaceted specialisms in digitalization and artificial intelligence (AI). However, in the face of rapidly changing technology, the growth of industrialization depends significantly on the progressive involvement of artificial intelligence applications in wide areas of industrial products and processes. AI technology potential contribution to the global economy is $15.7 trillion currently with 2% contribution from the middle east region. The manufacturing sector investment and funding on project gained in USA and China through AI-enabled technologies by automotive and IT sectors leading GDP by 115% accounting to $77.5 billion in 2021. The factors driving the industry 4.0 mainly are competitiveness and innovation, cost reduction, and performance improvement, which led to the use of AI technology applications to industrial sector. AI-enabled applications are explored in automotive, consumer products, industrial manufacturing, telecommunication sectors to enhance product quality,
design in the process. Despite the benefits offered by the AI applications to industries, the barriers for effective adoption of industry 4.0 ideology to all sectors is a time-taking process.
The current century marks the renaissance of fourth industrial revolution the term that was first introduced by Klaus Schwab in 2016 to denote the future trend of industrial world [1]. The industry 4.0 principles are built upon the developments of third industrial revolution that already has introduced computerization technology to the world. This paved the way to the most prominent applications, such as automation and artificial intelligence, and in addition to digital transformation of process and business operations along the different industrial revolutions [2]. The first industrial revolution marks the advent of mechanization from steam and waterpower during 1750 and 1850, followed by second revolution bringing in electrical power and mass production systems during 1870 to 1914 and third revolution in the 20th century gave entry of computer and electronics into industrial process after 1970.
Currently, the industry 4.0 began during 2014, where it works on conceptualizing the use of innovative technology and advanced digital production together contributing to a sustainable industrial development [3, 4]. According to research studies by UNIDO, industry 4.0 scope has not made full advancement in all sectors as of yet, in Argentina and Brazil claims that 3% to 4% of firms have adopted few applications, while countries like Ghana, Vietnam and Thailand has very much behind in exploiting the benefits of the fourth revolution.
In this viewpoint, this chapter will deal in describing the role of artificial intelligence technology particularly in spearheading the industry 4.0 concept in the context of manufacturing sector globally. In combination, the chapter will likewise attempt to provide a comprehensive account on the factors that are considered contributing to the employment of industry 4.0 across different organizations.
1.2 Methodology
The purpose of the chapter is to provide an overview and in-depth understanding of the factors that are driving the industry 4.0 in the perspective of
artificial intelligence technology. To elaborate the details, published literature and reports from previous studies are referred to meet the objectives of the study, and secondary sources of information by visiting different organizational websites were conducted to examine the factors contributing to the industry 4.0. Thorough searches from previously published work by various researchers was conducted to examine the different driving factors for industry 4.0 and were analyzed. Information related to the industry 4.0 technologies, their roles toward manufacturing sector, statistical information on status global economy with artificial intelligence technology were collected from secondary data published in government information portals and global private organizations like price Waterhouse coopers, McKinsey & Company, Deloitte etc. For presenting the findings from the analysis, the authors have maximized the available information published in researchers and details provide in various organizational websites.
1.3 Scope of AI in Global Economy and Industry 4.0
The fourth industrial revolution is fueled from its predecessor industrial phase essentially pushing the trend toward automation and fully integrating the digitalization process in industries, expanding the applicability through some of the significant applications like internet of things (IoT), cyber physical systems, smart factory, cloud computing, cognitive computing, artificial intelligence, etc. Theoretically, the fourth industrial revolution is driven by four key ideologies, enabling interconnection between different technological applications, transparency in information and procurement, technical assistance, and regionalized decisions enabling the industry 4.0 concept a distinctive approach from the third revolution [5].
Artificial intelligence (AI) can be explained as the use of computer programming to mimic human thought and actions to create human-like responses through machine learning, logic, perception, and reasoning. Legendary physicist Stephen Hawking quotes “Success in creating effective AI could be the biggest event in the history of our civilization. Or the worst. We just don’t know. So, we cannot know if we will be infinitely helped by AI, or ignored by it and side-lined, or conceivably destroyed by it.”
Artificial intelligence (AI) obviously is a significant technology among the other technological applications in the industry 4.0 as it principally works on the foundation of computer learning and augmentation pertinent to the entire industry ecosystem. Most importantly, AI technology has tremendous scope for its application in manufacturing industries in the production and design stages enabling reduction in human errors,
production efficiency and reduction in losses. Moreover, the use of AI techniques, such as machine learning and deep learning, have substantial contribution toward advancement of global economy as the global race for embedding AI into businesses have already started reaching milestones in some countries, for example 82% of Spanish companies have explored AI technology in their industrial system.
Following the prospective growth in utilizing AI technology, global projection shows the technology has the potential to contribute $15.7 trillion to the economy by 2030 of which middle east expects to claim 2% of the benefits accounting to $320 billion. AI Technologies in the GCC four countries (Bahrain, Kuwait, Oman, and Qatar) is likely to contribute around 8.2% of GDP by 2030, while in comparison to no middle east economies, the share of AI to the GDP is large, 26.1% in China, and 14.5% in North America. Notwithstanding to say, the prospects of AI technology to industries especially in the developing nations is tremendous as the potential for embedding AI in manufacturing and allied sectors is increasing gradually. In addition, in the UAE, KSA, GCC, and Egypt, the annual growth of AI from 2018 to 2030 is expected to be 33.5%, 31.3% 28.8%, and 25.5%, respectively [6].
In developed nations, the importance of AI technology to business achievement shows more promising growth in the UK from 14 % to 45%, United States 11% to 42%, Germany 4% to 32%, Australia 12% to 29% in the next few years [7]. Regional analysis on the investment scenario on AI in Asian markets shows $0.69 billion in 2019 with the global market expected to reach $9.89 billion by 2027, in the UK, investment on AI stands at $1.3 billion; further, there are growth returns expected from the increasing investment on AI north and south America according to Market research report of Fortune Business Insights [8].
1.3.1 Artificial Intelligence—Evolution and Implications
The period from 1950 to 1960 marks the birth and evolution of AI to the world, later in the six decades of its journey, the technology has taken leaps and bounds along with the industrial revolutions [9]. Presently, in the 21st century, AI is certainly the prominent technology for the industry 4.0 and for the future. Global economists also estimate the wide applications AI will be very much instrumental for global expansion in the future, and quite obviously AI will be one of the most preferred technologies to be used by companies by the year 2025 according to the reports by world economic forum [10]. Added to this, COVID-19 pandemic has necessitated remote work and work for home policies, which has created potential demand for
industries to rely upon some of the allied technology applications of AI to business operations. Symbiotically, AI technology came to the aid of many researchers, planners, and decision makers in tracking, predicting the movement and evolution of COVID pandemic from 2020 [9].
In the present industrial revolution, AI technology is making remarkable contribution in multiple sectors boosting production and enhancing business operations in healthcare, financial and banking, agriculture, transport, science, and research etc., [11]. AI in the next industrial revolutions prospectively will take a leap into many businesses and industries making better integration between humans and machines. In contrast to the diverse benefits AI would provide, the disadvantages from the use of AI in certain fields far outweigh the advantages, and employing AI in some sensitive fields certainly have considerable risks and implications that will pose to societies, and in general to low-economic countries particularly escalating unemployment further and other repercussions [12].
1.3.2 Artificial Intelligence and Industry 4.0—Investments and Returns on Economy
The global industrial sector is bound to get complete overhaul from the invasion of digitalization transformation and digitalization of operations in the industry 4.0 era where artificial intelligence is going to be the futuristic concept in the next decades. Global economic empires, the United States of America (USA) and China, are leading the way on total investments in different AI-enabled technologies across all industrial sectors. We can convincingly say that the global AI in terms of investment and funding on projects is at a remarkable position. The global investment and finance on AI were $40 billion in 2017, of which 70% were in China alone followed by the US, resulted in a projected increase of GDP in manufacturing and construction sector by 6.5% by 2030 [13].
Reports from anonymous studies show global investment on AI-enabled companies increased by 115% that accounts to $77.5 billion in 2021 over the previous years. The GDP growth from AI-enabled technologies would be 26.1% in China and 14.5% in North America together contributing $10.7 trillion of global economy by 2030. Leading business analysts predict that the global GDP will rise to 14% by 2030, the highest effect to USA and China in the forefront; however, all regions would obviously benefit [6] (Figure 1.1).
In the manufacturing sector, the AI investments mainly in software, hardware, and services were $2.9 billion in 2018 and expected at $13.2
A Roadmap
Figure 1.1 World regions gaining impact from artificial intelligence through GDP growth in percent and trillion US dollars.
billion by 2021 with a projected spending of $9.5 during the year 2021 in the sector standing second to banking and financial services [14]. The increasing funding and returns from investment on AI show an increasing curve during the current industry 4.0 because of increasing AI-enabled companies and business startups globally, which stand at 4925 enterprises and 3465 startups by 2018. USA and China are currently global leaders in having the highest number of AI enterprises and startups by 2018, and the overall funding on AI across all industries in the USA from 2012 to 2018
Figure 1.2 Funding on different AI applications and percent share on global investment and financing projects up to 2018.
