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New Horizons for Industry 4.0 in Modern Business

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This book discovers what it will take to reindustrialize the previous industrial powerhouses in order to offset the advantages of cheap labor suppliers dominating the industrial sector by exploring the current situation of the production, processing, and manufacturing industries. The Internet of Things (IoT), Big Data, Cyber-Physical Systems (CPS), and Cloud Computing, Cyber Security, Cobotics, Automation, AI, 3D Printing and Additive Manufacturing, SDN, Blockchain technologies are outlined in this unique and comprehensive book, which has true potential for professionals, researchers, policymakers, and book users.

New Horizons for Industry 4.0 in Modern Business encompass trends in business and technology globally that may completely alter how manufacturing and production are conducted. What you will discover: Learn about the Industrial Internet of Things and the Industrial Internet. Learn about the technologies that must develop to support Industry 4.0 and what is being done right now to make that happen. In this book, the topic of Industry 4.0 is covered in detail, and it even moves on to concepts of Digital Twins to boost output and create Industrial Internet of Things.

With the development of new digital industrial technology, or "Industry 4.0," it is now feasible to collect and analyze data from many machines, resulting in processes that are quicker, more adaptable, and more efficient, producing things of higher quality while spending less money. The manufacturing revolution will boost productivity, alter economics, promote industrial development, and alter workforce demographics, ultimately altering the competitiveness of businesses and areas. Although advanced digital technology is being employed in manufacturing, Industry 4.0 will completely change how things are done. Greater production efficiencies will result, and conventional connections between suppliers, manufacturers, and consumers―as well as between people and machines―will shift. Industry 4.0 is changing the business process. This disruptive technology is radically changing the way businesses/manufacturing is conducted. It will give machines that little bit of intuition with the help of robotics, 3D printing, artificial intelligence, augmented reality, and virtual reality―that will help them do mindless and repetitive jobs without human intervention, allowing humans to focus more on their core competencies.


Author(s): Anand Nayyar, Mohd Naved, Rudra Rameshwar
Series: Contributions to Environmental Sciences & Innovative Business Technology
Publisher: Springer
Year: 2023

Language: English
Pages: 336
City: Cham

Preface
Contents
1 Artificial Intelligence Powered Automation for Industry 4.0
1 Introduction
2 Automation for Industry 4.0
2.1 What is Industry 4.0?
2.2 Merging the Virtual and Real World
2.3 The Role of Automation in Industry 4.0
2.4 Automation Challenges in Industry 4.0
2.5 Example of the Industry 4.0 Revolution
2.6 Challenges and Issues of Implementing Industry 4.0
2.7 Advantages of Automation in Industry 4.0
2.8 The Future of Industry 4.0
3 AI in Automation for Industry 4.0
3.1 Role of AI in Industry 4.0
3.2 Impact of AI in Industry 4.0
3.3 Industrial Artificial Intelligence
3.4 Applications of AI in Smart Industry
3.5 AI Algorithms Used in Smart Industry
4 Results and Discussion
5 Conclusion and Future Scope
References
2 Business Sustainability and Growth in Journey of Industry 4.0-A Case Study
1 Introduction
2 Literature Review
3 Revolution of Industry 4.0
3.1 Characteristics of Industry 4.0
3.2 Why Industry 4.0 is Important?
3.3 Implementation of Industry 4.0 in Indian Industry
4 Proposed Work
4.1 Methodology
4.2 Discussion
5 Conclusion
References
3 Foundation Concepts for Industry 4.0
1 Introduction
1.1 History and Evolution of Industrial Revolutions
2 Industry 4.0
3 Significance of Industry 4.0 in Global Business
4 India Readiness for Industry 4.0
5 Conceptual Model of Industry 4.0 for Sustainable Development
6 Conclusion
References
4 Challenges and Opportunities for Mutual Fund Investment and the Role of Industry 4.0 to Recommend the Individual for Speculation
1 Introduction
2 Literature Review
3 Industry 4.0 Bridges with Mutual Fund
4 Introduction to Mutual Fund
4.1 Types of Mutual Funds
4.2 Benefits and Disadvantages of Mutual Fund
4.3 Making Investment in Mutual Funds
5 Mutual Fund Parameters
5.1 Alpha
5.2 Beta
5.3 R-Squared
5.4 Standard Deviation
5.5 The Sharpe Ratio
6 Industry 4.0 Technologies
7 Tools for Analyzing Mutual Funds
7.1 Artificial Intelligence
7.2 Introduction to RPA
7.3 Chabot
7.4 Machine Learning
7.5 Neural Networks
8 Case Studies-Three Mutual Funds
8.1 Tata Infrastructure Fund
8.2 Aditya Birla Sun Life Infrastructure Fund
8.3 LIC MF Infrastructure Fund
9 Finding and Results
10 Conclusion and Future Scope
References
5 Implementing Digital Age Experience Marketing to Make Customer Relations More Sustainable
1 Introduction
2 Experiential Marketing—The Incentive of Sustainable Development
3 Experiential Marketing-Application and Standing in Industry 4.0
4 Benefits of Experiential Marketing in Industry 4.0
5 Results
6 Discussions
7 Related Strategies
8 Research Implication and Future Research Directions
Appendix
References
6 Prospective Application of Blockchain in Mutual Fund Industry
1 Introduction of Blockchain Towards Industry 4.0
2 Organization Overview
3 Industry 4.0-Introduction
3.1 Importance of Industry 4.0 in Asset Management Industry
4 Role and Impact of Blockchain Technology on Mutual Fund Industry
4.1 Need of Blockchain on Mutual Fund Industry
4.2 Boom of Blockchain Technology in Mutual Fund Industry
5 Blockchain Exchange Traded Fund
6 Challenges of Blockchain in Mutual Fund Industry
7 Conclusion and Further Scope
References
7 Industry 4.0 Internet of Medical Things Enabled Cost Effective Secure Smart Patient Care Medicine Pouch
1 Introduction
2 Literature Review
3 Overview of Industry 4.0 and IoMT Devices
3.1 Internet of Medical Things in Industry 4.0
4 Impact, Challenges and Applications of IoMT Enabled Cost Effective Secure Smart Patient Care Medicine Pouch
4.1 Impacts of Proposed Smart Patient Care Medicine Pouch
4.2 Challenges in Designing the Proposed Smart Patient Care Medicine Pouch
4.3 Applications of Proposed Smart Patient Care Medicine Pouch
5 Industry 4.0 IoT Enabled Cost Effective Secure Smart Patient Care Medicine Pouch: Architecture and Implementation
5.1 System Architecture
5.2 Implementation of IoMT Enabled Smart Medical Patient Medicine Pouch
6 Performance Analysis of Proposed System
6.1 Alzheimer Patients as Potential Users of Proposed System: A Case Study
7 Conclusion and Future Scope
References
8 Design and Automation of Hybrid Quadruped Mobile Robot for Industry 4.0 Implementation
1 Introduction
2 Structural Design
3 Robot Automation
4 Experimental Results
5 Conclusion and Future Scope
References
9 To Trust or Not to Trust Cybots: Ethical Dilemmas in the Posthuman Organization
1 Introduction
2 Industry 4.0 as Posthuman Organization
3 Digital Trust and Posthuman Industry 4.0
4 Digital Distrust and the Posthuman
5 The Need for Curiosity: The Determinism in Industry 4.0
6 Toward an Uncritical Curiosity: Michel Foucault’s Ethics of Curiosity
7 Two Foucauldian Scenarios: Resolving Dilemmas of Trust in Industry 4.0
7.1 The Centrality of Care: The ‘Bad’ Scenario in the Posthuman Organization
7.2 Not-Yet-Post Humanized Trust: The ‘Good’ Scenario in Industry 4.0
8 Conclusion and Future Scope
References
10 Hydrogel Based on Alginate as an Ink in Additive Manufacturing Technology—Processing Methods and Printability Enhancement
1 Introduction
1.1 Overview of Additive Manufacturing Technologies Using Hydrogel Inks
1.2 Application of Extrusion Techniques in the Biomedical Field
2 Improvement of Properties of Alginate-Based Hydrogel Ink
2.1 Additives Improving Printability
2.2 Methods Using the Support-Bath 
2.3 Sacrificial Material as an Outline
3 Influence of Process Parameters on Mechanical Properties of Hydrogel Structure
4 Conclusion and Future Scope
References
11 Coal Fly Ash Utilization in India
1 Introduction
1.1 Characterization of Fly Ash
2 Fly Ash Utilization in India
2.1 Cement and Concrete Industries
2.2 Mine Filling and Agriculture
2.3 Construction of Roads/Embankments/Flyovers and Raising of Ash Dykes
2.4 Reclamation of Low Laying Area and Building Materials
2.5 Geopolymer Materials
2.6 Additive Manufacturing for Sustainable Materials
3 Conclusion and Future Scope
References
12 3D Printing Pathways for Sustainable Manufacturing
1 Introduction
2 Literature Review
2.1 Sustainable Manufacturing
2.2 3D Printing
2.3 Related Studies
3 Additive Manufacturing Over Traditional Manufacturing
4 Materials Used in 3D Printing
4.1 Metallic Materials
4.2 Ceramics Materials
4.3 Polymers Materials
4.4 Composites Materials
4.5 Smart Materials
5 Types of 3D Printing
5.1 Fuse Deposition Modelling
5.2 Direct Energy Deposition
5.3 Selective Laser Sintering
5.4 Digital Light Processing
5.5 Stereolithography
6 Applications of 3D Printing
6.1 Aerospace Industry
6.2 Automotive Industries
6.3 Medical Sector
7 Contribution of 3D Printing Towards Sustainable Manufacturing
8 Limitation of 3D Printing
9 Conclusion and Future Scope
References
13 Role of 3D Printing in Pharmaceutical Industry
1 Introduction
2 Procedure for 3D Printing
3 Advantages and Limitations of 3D Printing
4 Fabrication of 3D Medical Product
4.1 Fused Deposition Modeling or Material Extrusion
4.2 Vat Photo-Polymerization (V.P.P.)
4.3 Selective Laser or Powder Bed Fusion
4.4 Binder Jetting
4.5 Material Jetting
4.6 Direct Energy Deposition
5 Challenges of 3D Printing
6 Application of 3D Printing in the Pharmaceutical Field
6.1 Customized Implant and Prostheses
6.2 Bio-printing Tissues and Organs
6.3 Tablets
6.4 Microneedles
6.5 Transdermal Patch
6.6 Wound Dressing
6.7 Buccal Film
6.8 Abuse-Deterrent or Discouragement Dosage Forms
7 Advantages of 3D Printing in the Pharma Industry
8 Conclusion and Future Scope
References
14 3D Printing: A Game Changer for Indian MSME Sector in Industry 4.0
1 Introduction
1.1 3D Printing Terminology
2 Background of Additive Manufacturing
2.1 History of Printing in General and 3D Printing in Specific: (Timeline of Growth of Additive Manufacturing) [7, 8]
2.2 Types of 3D Printing
2.3 Materials Used in Manufacturing Industry for 3D Printing
2.4 Product Cycle: Traditional Manufacturing Process Versus Additive Manufacturing Process
3 Application of Additive Manufacturing in Various Sectors [19, 20]
3.1 Education Sector
3.2 Aeronautics and Aerospace Industries
3.3 Medical and Dentistry
3.4 Construction Sector
3.5 Jewellery Sector
3.6 Cultural Heritage
4 Recent Developments and Key Players
4.1 Global Scenario [26]
4.2 Indian Scenario
5 Additive Manufacturing: Game Changer for Indian MSME Sector
5.1 Overall View of MSME Sector in India
5.2 Various Government Initiatives for Adoption of AM [31]
5.3 Adoption Model of AM by MSMEs and Role Enrichment of Facilitating Agencies with Revitalisation Government Concern
5.4 Development of Additive Manufacturing Centre
5.5 Engineering Technique—A Case Study
6 Contribution of AM During COVID-19 Pandemic
7 Perspective Contribution and Operational Constrains
7.1 Perspective Contribution of 3D Printing
7.2 Operational Constraints and Challenges [34]
8 Conclusion and Future Scope
References