Details

Autor(en) / Beteiligte

• Zhang, Lin,
• Zhou, Longfei,
• Xiao, Luo,

Titel

Customized production through 3D printing in cloud manufacturing

Ort / Verlag

Amsterdam, The Netherlands ; : Elsevier,

Erscheinungsjahr

[2023]

Link zum Volltext

• Elsevier Books AutoHoldings

Beschreibungen/Notizen

• Includes bibliographical references and index.
• Intro -- Customized Production Through 3D Printing in Cloud Manufacturing -- Copyright -- Contents -- Preface -- Chapter 1: Introduction to customized manufacturing -- 1.1. The origin of customized manufacturing -- 1.2. Evolution of customized production -- 1.2.1. Cottage industry production -- 1.2.2. Machine production -- 1.2.3. Mass production -- 1.2.4. Mass customized production -- 1.2.5. Future production -- 1.3. 3D printing and cloud manufacturing -- 1.4. Conclusion -- References -- Chapter 2: Advances in cloud manufacturing -- 2.1. A new paradigm of manufacturing -- 2.2. The concept of cloud manufacturing -- 2.2.1. The conceptual model of cloud manufacturing -- 2.2.2. Whole life cycle activities in a cloud environment -- 2.2.3. Six unique abilities of cloud service platform -- 2.3. Six technical features of cloud manufacturing -- 2.3.1. Digitization -- 2.3.2. Networking -- 2.3.3. Virtualization -- 2.3.4. Service-orientation -- 2.3.5. Collaboration -- 2.3.6. Intelligence -- 2.4. Conclusion -- References -- Chapter 3: 3D printing with cloud manufacturing -- 3.1. 3D printing in the cloud manufacturing environment -- 3.2. Production with cloud 3D printing platform -- 3.2.1. The architecture of the cloud 3D printing platform -- 3.2.2. The functional structure of the cloud 3D printing platform -- 3.2.3. Standard for 3D printing platform -- 3.3. Advantages of cloud 3D printing services -- 3.3.1. High customization -- 3.3.2. High agility -- 3.3.3. High flexibility -- 3.3.4. High socialization -- 3.3.5. Low cost -- 3.4. Conclusion -- References -- Chapter 4: Model design of 3D printing -- 4.1. 3D printing model management -- 4.2. Sketch based 3D model retrieval -- 4.3. Image based 3D model generation -- 4.3.1. 3D model generation process -- 4.3.2. Experiment and evaluation -- 4.4. Conclusion -- References -- Chapter 5: 3D printing resource access.
• 5.1. Classification of 3D printers -- 5.2. Accessing 3D printers based on adapters -- 5.2.1. Adapter access module on the adapter side -- 5.2.2. Service management module on the platform side -- 5.2.3. Communication between platform and adapters -- 5.2.4. Distributed slicing task execution based on adapters -- 5.3. Accessing 3D printers based on sensors -- 5.3.1. Sensor selection and application -- 5.3.2. Sensor fusion -- 5.4. Conclusion -- References -- Chapter 6: 3D printing process monitoring -- 6.1. Quality problems in the 3D printing -- 6.2. Overview of the 3D printing process monitoring method -- 6.3. 3D printing fault detection based on process data -- 6.3.1. Data acquiring -- 6.3.2. Data preprocessing -- 6.3.3. Feature engineering -- 6.3.4. Classifier -- 6.3.5. Design of the fault detection system -- 6.4. Conclusion -- References -- Chapter 7: 3D printing credibility evaluation -- 7.1. 3D printing model credibility evaluation -- 7.1.1. Problem description -- 7.1.2. Framework of 3D printing model credibility evaluation -- 7.1.3. Indexes and evaluation of 3D printing model credibility -- 7.2. 3D printing service credibility evaluation -- 7.2.1. Credibility evaluation indicators of cloud manufacturing services -- 7.2.2. Attributes of a 3D printing equipment -- 7.2.3. Credibility assessment process of cloud manufacturing services -- 7.3. Conclusion -- References -- Chapter 8: Supply-demand matching and task scheduling -- 8.1. The supply and demand relationship in 3D printing cloud platform -- 8.2. Supply-demand matching -- 8.2.1. Multi-source data integration model -- 8.2.2. Capability indicator model -- 8.2.3. Model-based matching process and matching rules -- 8.3. Scheduling of distributed 3D printing services -- 8.3.1. Optimization objective -- 8.3.2. Constraints -- 8.3.3. Optimization algorithm -- 8.4. Conclusion -- References.
• Chapter 9: 3D printing process management -- 9.1. Multi-task parallel printing for complex products -- 9.1.1. Problem definition -- 9.1.2. Combinatorial optimization method of parallel processing services -- 9.2. A 3D printing task packing algorithm -- 9.2.1. Problem description -- 9.2.2. The 3D printing task packing algorithm (3DTPA) -- 9.3. Conclusion -- References -- Chapter 10: Security and privacy in cloud 3D printing -- 10.1. Data security of cloud 3D printing platforms -- 10.1.1. Data security issues in cloud 3D printing -- 10.1.2. Encryption technology for cloud 3D printing data -- 10.1.3. Violation identification and notification in cloud 3D printing -- 10.2. Access control for cloud 3D printers -- 10.3. Security of cloud 3D printing based on blockchain -- 10.3.1. Review of blockchain applications in cloud manufacturing -- 10.3.2. Credit security of cloud 3D printing services -- 10.4. Intellectual property protection -- 10.5. Conclusions -- References -- Chapter 11: Application demonstration of cloud 3D printing platform -- 11.1. Customized production based on cloud 3D printing platform -- 11.2. Conclusion -- Chapter 12: Conclusions and future work -- References -- Index.
• Description based on print version record.