Part I: Smart Technologies in Manufacturing
Chapter 1 Smart Manufacturing Systems for Industry 4.0
1.3 Pillars of Smart Manufacturing
1.3.1 Manufacturing Technology and Processes
1.3.5 Resource Sharing and Networking
1.3.6 Predictive Engineering
1.4 Enablers and Their Applications
1.5 Assessment of Smart Manufacturing Systems
1.6 Challenges in Implementation of Smart Manufacturing Systems
1.6.1 Technological Issue
1.6.2 Methodological Issue
1.7 Implications of the Study for Academicians and Practitioners
Chapter 2 Smart Manufacturing Technologies in Industry 4.0: Challenges and Opportunities
2.1 Introduction to Smart Manufacturing
2.1.2 Traditional Manufacturing versus Smart Manufacturing
2.1.3 Concept and Evolution of Industry 4.0
2.1.4 Motivations for Research in Smart Manufacturing
2.1.5 Objectives and Need of Industry 4.0
2.1.6 Research Methodology
2.1.8 Benefits/Advantages of Industry 4.0
2.2 Technology Pillars of Industry 4.0
2.2.1 Automation in Industry 4.0
2.2.1.1 Need of Automation
2.2.1.2 Components of Automation
2.2.1.3 Applications of Automation
2.2.2 Robots in Industry 4.0
2.2.2.2 Advantages of Robots
2.2.2.3 Applications of Robots
2.2.2.4 Advances Robotics
2.2.3 Additive Manufacturing (AM)
2.2.3.1 Additive Manufacturing's Potential Applications
2.2.6.1 Cyber-Security Challenges in Industry 4.0
2.2.7 Augmented Reality and Virtual Reality
2.2.8.1 Need of Simulation in Smart Manufacturing
2.2.8.2 Advantages of Simulation
2.2.8.3 Simulation and Digital Twin
2.2.9.1 Integration of Horizontal and Vertical Systems
2.2.10 IoT and IIoT in Industry 4.0
2.2.11 Artificial Intelligence in Industry 4.0
2.2.12 Implications of the Study for Academicians and Practitioners
2.3 Summary and Conclusions
2.3.1 Benefits of Industry 4.0
2.3.2 Challenges in Industry 4.0
Chapter 3 IoT-Based Intelligent Manufacturing System: A Review
3.3.1 The Beginning and Advancement of SM/IM
3.3.5 Statistical Analysis of SM/IM
3.3.6 Future Endeavour of SM/IM
