This volume focuses on the virtualization of manufacturing through technologies like digital twin, edge computing, big data analytics, and cloud computing. The authors explain the integration of these technologies in ensuring real-time data processing and decision-making routes and how smart sensors play a pivotal role in digital manufacturing, acting as the sensory network that feeds real-time information into the interconnected manufacturing systems. The book further examines augmented reality (AR), another key facet in enhancing human-machine interactions and improving operational efficiency. Describing the broad technological contributions to the creation of responsive, data-driven manufacturing environments that are agile and adaptable to dynamic market demands, the book is ideal for academics/researchers, production engineers, automotive engineers, computer data scientists, IoT & AI engineers, and other professionals in related engineering and cloud computing industries.
- Explores smart factory concepts, integration of cyber-physical systems in manufacturing, and edge computing;
- Explains aspects of sensory network in manufacturing, real-time information flow, and augmented reality applications;
- Illustrates Industry 5.0 and sustainability issues, 3D printing technologies and their applications.
Part 1: Digital Manufacturing.- Ch 1: Historical Evolution Leading to
the Current State of Digital Manufacturing in Industry 5.0.- Ch 2: Shaping
the Future: A Global Perspective on Digital Manufacturing in Industry 5.0.-
Ch 3: Optimizing Digital Manufacturing Practices: A Global Data-Driven
Approach for Industry 5.0 Using SPSS.- Ch 4: Technology Shift from
Traditional Subtractive Manufacturing to Additive Manufacturing in Digital
Manufacturing Era.- Ch 5: Additive Manufacturing for Industry 5.0:
Techniques, Applications, and Future Trends.- Ch 6: Additive Manufacturing
and 3D Printing Revolution in Industry 5.0.- Ch 7: The Future of
Manufacturing: A Convergence of 3D Printing and Industry 5.0.- Ch 8:
Application of 3D printing in the Experimental Aerodynamic Research.- Ch 9:
Revolutionizing Metal Manufacturing with AI-Driven 3D Printing and Additive
Manufacturing.- Ch 10: Advancements in Additive Manufacturing for the
Fabrication of Manual Gear Transmission Box.- Ch 11: Next-Gen Additive
Manufacturing: AI-Powered Design, Production, and Control in Industry 5.0.-
Ch 12: Machine Learning for Optimized Additive Manufacturing: Challenges,
Opportunities and Sustainability.- Ch 13: Recent Advances in the Application
of Thermography to Additive Manufacturing: From Process Monitoring to
Mechanical Characterisation.- Ch 14: Additive Manufacturing and 3D Printing
for Tissue Engineering and Regenerative Medicine.- Ch 15: Optimizing Fiber
Volume in Steel Fiber-Reinforced GGBS Geopolymer Concrete for Smart
Manufacturing.- Ch 16: Composite Fabrication for Industry 5.0 Applications
using Friction Stir Processing.- Ch 17: Numerical Simulation of Pressure and
Temperature Characteristics in Fire Tube Boilers Utilizing Alcohol-Based
Fuels for Optimized Energy Efficiency in Smart Manufacturing.- Ch 18:
Combustion Characteristics and Fracture Toughness of Epoxy Glass
Fiber/Phenolic Composites During Oxidation Gas Release.- Part 2:
Sustainability Issues in Manufacturing.- Ch 19: Industry 5.0: A New Era of
Sustainable and Human-Centered Production.- Ch 20: Industry 5.0 and
Sustainability Issues.- Ch 21: Industry 5.0: Addressing Sustainability
Challenges through Human-Machine Collaboration.- Ch 22: Advancing
Sustainability through Industry 5.0: Trends, Challenges, and Future
Directions.- Ch 23: Navigating the Challenges of Industry 5.0.- Ch 24:
Sustainability and Performance Evaluation of Concrete Reinforced with Fly Ash
and Silica Fume: A Combined LCA and TEA Approach.- Ch 25: Waste to Resource:
Smart 3R Approaches for Sustainable and Resilient Construction.- Ch 26:
Digital Tool Life Prediction and Monitoring for Sustainable Manufacturing in
Industry 5.0.- Ch 27: Challenges and Considerations in Industry 5.0
Adoption.- Ch 28: Challenges and Opportunities in Integrating Natural
Fiber-Reinforced Polymer Composites into Industry 5.0 for Enhanced Mechanical
and Thermal Properties.- Ch 29: Bananature: Sustainable Carry Bags Crafted
from Banana Pseudostems for a Plastic-Free Future.- Ch 30: Sustainable
Bio-Composites and Hybrid Materials by Integrating Digital Manufacturing for
Industry 5.0.- Ch 31: IoT-Driven Solutions for Smart Farming and Business
Optimization in Industry 5.0.- Part 3: Digital Twins, Augmented Reality &
Robotics.- Ch 32: Digital Twins in Product Development.- Ch 33: Accelerating
Innovation: The Benefits of Digital Twins in Product Design and
Manufacturing.- Ch 34: Digital Twins for Process Understanding and
Optimization.- Ch 35: Digital Twins for Sustainable Performance in Industry
5.0: Insights from Multiple Cases.- Ch 36: Digital Twins and Smart Sensors
for Process Optimization in Direct Energy Deposition of EN36C Steel for
Automotive Components.- Ch 37: Revolutionizing Digital Manufacturing:
Augmented Reality for Design, Prototyping, Production, and Maintenance.- Ch
38: Advanced Robotics Application in Industry 5.0 Manufacturing Processes.-
Ch 39: Advancements in Reinforcement Learning for Robotics: A Comprehensive
Review and Future Directions.- Ch 40: Smart Factories and Cyber Physical
Systems.- Ch 41: Advanced Robotics Applications in Industry 5.0 Manufacturing
Processes.- Ch 42: The Power of Smart Sensors: A Technological Revolution.-
Ch 43: Smart Sensors in Factories of the Future.- Ch 44: From the Shopfloor
to Cloud-based Cyber-Physical Systems: The RAMP Case Study.- Ch 45: Data
Analytics and Insights: Leveraging Cloud Resources in Industry 5.0.- Part 4:
Smart Supply Chains.- Ch 46: Blockchain and the Green Frontier: A
Bibliometric and Systematic Review of Supply Chain Sustainability.- Ch 47:
Revolutionizing Logistics: Smart Supply Chains Leading the Way in Industry
5.0.- Ch 48: Measurement of AI-Based Drivers of Smart Supply Chain Towards
Sustainability in the Era of Industry 5.0.- Ch 49: Optimizing Supply Chain
Finance Decisions Through Supplier Risk Portfolio Assessment.- Ch 50: Digital
Transformation of Maintenance: Leveraging CMMS for Enhanced Efficiency and
Productivity.- Ch 51: Understanding the need of human-robot collaboration in
manufacturing industries.
Dr. Yogesh Kumar Singla is an Assistant Professor in the School of Engineering, Math and Technology, Navajo Technical University, USA.
Dr. Ashwani Kumar is a Professor and Head of Department of Mechanical Engineering, Technical Education Department Uttar Pradesh Kanpur India.
Dr. Michael R. Maughan is an Associate Professor in the Department of Mechanical Engineering, University of Idaho, USA.
