Design and Operation of Smart Reconfigurable Manufacturing Systems in Industry 4.0/5.0, Gebunden
Design and Operation of Smart Reconfigurable Manufacturing Systems in Industry 4.0/5.0
(soweit verfügbar beim Lieferanten)
- Herausgeber:
- Sihan Huang, Xingyu Li, Xi Gu, Yoram Koren
- Verlag:
- Springer, 10/2025
- Einband:
- Gebunden
- Sprache:
- Englisch
- ISBN-13:
- 9783032002839
- Artikelnummer:
- 12514881
- Umfang:
- 232 Seiten
- Gewicht:
- 558 g
- Maße:
- 241 x 160 mm
- Stärke:
- 18 mm
- Erscheinungstermin:
- 2.10.2025
- Hinweis
-
Achtung: Artikel ist nicht in deutscher Sprache!
Klappentext
Chapter 1. The Evolution Roadmap of Reconfigurable Manufacturing Systems.- Chapter 2. Part Family Formation Method for Delayed Reconfigurable Manufacturing System based on Machine Learning.- Chapter 3. A Multi-Objective Joint Optimisation Method for Simultaneous Part Family Formation and Configuration Design in Delayed Reconfigurable Manufacturing System (D-RMS).- Chapter 4. Configuration Design for Smart Reconfigurable Manufacturing Systems.- Chapter 5. Self-adaptive Reconfiguration Decision-making Method of Smart Manufacturing Systems Based on Game Theory.- Chapter 6. Reinforcement Learning-based Dynamic Reconfiguration Planning for Digital Twin-Driven Smart Manufacturing Systems with Reconfigurable Machine Tools.- Chapter 7. Integrated Operational and Preventative Decision-Making in a Smart Reconfigurable Manufacturing Systems.- Chapter 8. Dynamic Reconfiguration Optimization of Smart Manufacturing System with Human-Robot Collaboration based on Digital Twin.- Chapter 9. Cultivating Knowledge in Human-Machine Teams for Efficient Equipment Diagnosis by leveraging Smart Reconfigurable Manufacturing Systems.- Chapter 10. Achieving Manufacturing Resilience Through Reconfigurable Manufacturing Systems and Supply Chains.- Chapter 11. Coordination of Manufacturing and Supply Chain Network in Emergency Situations via Smart Reconfigurable Manufacturing Systems.- Chapter 12. Realization of Responsive and Sustainable Reconfigurable Manufacturing Systems.- Chapter 13. Configuration Design in Scalable Reconfigurable Manufacturing Systems by Analyzing the Effect of Data Accuracy on System Reconfiguration Costs.- Chapter 14. Towards a sustainable reconfigurable manufacturing system (SRMS): multi-objective based approaches for process plan generation problem.- Chapter 15. Digital twin-driven rapid reconfiguration of the automated manufacturing system via an open architecture model.- Chapter 16. Digital twin framework for reconfigurable manufacturing systems (RMSs): design and simulation.- Chapter 17. Robust Configuration Design of Sustainable Reconfigurable Manufacturing System Under Uncertainty.- Chapter 18. Production scheduling in a reconfigurable manufacturing system benefiting from human-robot collaboration.
