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Previous Chapter

Table of Contents

Table of Contents

Chapter 1: Introduction

1.1. The concept of IoT

1.2. Existing manufacturing paradigms and their limitations

1.3. Applications of IoT in manufacturing system

1.4. The conception of IoT-MS

1.5. Key features and limitations of IoT-MS

1.6. Organization of the book

Chapter 2: Overview of IoT-Enabled Manufacturing System

2.1. Introduction

2.2. Related work

2.3. Overall architecture of IoT-MS

2.4. Integration framework of real-time manufacturing information

2.5. The worklogic of IoT-MS

2.6. Description of the core technologies of IoT-MS

Chapter 3: Real-Time and Multisource Manufacturing Information Sensing System

3.1. Introduction

3.2. Related works

3.3. Overall architecture of real-time and multisource RMMISS

3.4. Deployment of multisensors

3.5. Multiple sensors manager

3.6. Multisource manufacturing information capturing and sharing

3.7. Case study

Chapter 4: IoT-Enabled Smart Assembly Station

4.1. Introduction

4.2. Related works

4.3. Overall architecture of IoT-enabled smart assembly station

4.4. Real-time status monitoring

4.5. Real-time production guiding

4.6. Real-time production data sharing

4.7. Real-time production requeuing

Chapter 5: Cloud Computing-Based Manufacturing Resources Configuration Method

5.1. Introduction

5.2. Related works

5.3. Overall architecture of manufacturing resources configuration method

5.4. Cloud machine model

5.6. Manufacturing service registration and publication

5.7. Task-driven manufacturing service configuration model

Chapter 6: IoT-Enabled Smart Trolley

6.1. Introduction

6.2. Related works

6.3. Real-time information enabled material handling strategy

6.4. Overall architecture of optimization model for SMH

6.5. IoT-enabled smart trolley

6.6. Two-stage combination optimization method for move tasks

Chapter 7: Real-Time Key Production Performances Analysis Method

7.1. Introduction

7.2. Related works

7.3. Overall architecture of real-time production performance analysis model

7.4. The event hierarchy of critical event

7.5. HTCPN-based critical event analysis

7.6. Real-time production anomaly diagnosis

Chapter 8: Real-Time Information-Driven Production Scheduling System

8.1. Introduction

8.2. Related works

8.3. Overall architecture of real-time information-driven production scheduling system

8.4. Equipment agent

8.5. Capability evaluation agent model

8.6. Real-time scheduling agent model

8.7. Production execution monitor agent model

8.8. GA-based production scheduling algorithm

Chapter 9: IoT-MS Prototype System

9.1. Configuration of a smart shop floor

9.2. The framework of the prototype system

9.3. The logical flow of the prototype system

9.4. Task driven manufacturing resource configuration module

9.5. Production scheduling/rescheduling module

9.6. IoT-enabled smart material handling module

9.7. IoT-enabled smart station

9.8. Real-time manufacturing information track and trace

9.9. Real-time key production performances monitor module

Chapter 10: Conclusions and Future Works

10.1. Conclusions

10.2. Future works

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