Architecting Fail‐safe Supply Networks '18
Rezapour, Shabnam, Khosrojerdi, Amirhossein, Rasoulifar, Golnoosh, Allen, Janet K., Panchal, Jitesh H., Srinivasan, Ramakrishnan S., Tew, Jeffrey D., Mistree, Farrokh 著
目次
1 Conception of Fail-Safe Supply Networks Introduction: Networks and the power of connections Challenges facing supply networks and the importance of risk management An architecture for Fail-safe networks Organization of the monograph Definitions of terms used Closing Remarks 2 Variation Management in a Single Forward Supply Chain Importance of Variation Management in Supply Chains Literature of Variation Management in Supply Chains Our Contribution to the Supply Chain Literature Operations and Variation in a Supply Chain Mathematical Model of Reliable Production Planning throughout the Supply Chain Solution for the Supply Chain's Reliable Production Planning Model Computational Results Closing Remarks References 3 Variation Management in Pre- and After-Sales Supply Chains of Non-Repairable Products Importance of the After-sales Supply Chains for Products with Non-Repairable Components Literature of the After-sales Operations for Products with Non-Repairable Components Literature of Variation in the After-sales Operations of Products with Non-Repairable Components Our Contributions to the After-sales Operations of Products with Non-Repairable Components Problem Description Mathematical Model Solution Approach Results and Discussions Closing Remarks References Appendix 3.A: Proofs of lemmas Appendix 3.B: After-sales demand prediction Appendix 3.C: Linearization of model 4 Variation Management in the Product-Service Supply Chains of Repairable Products Importance of After-sales Supply Chains for Repairable Products Literature of After-sales Operations Our Contribution to the Literature of After-sales Supply Chains for Repairable Products Problem Description: Operations and Variations in the Forward and After-sales Supply Chains of Repairable Products Mathematical Model for Concurrent Flow planning in the Forward and After-sales Supply Chains of Repairable Products Solution Approach Computational Results Closing Remarks References Appendix 4.A: Assumptions of the problem Appendix 4.B: Notation Appendix 4.C: After-sales demand in each sales period Appendix 4.D: Model linearization 5 Variation Management in Supply Networks Reliable Flow Planning in Supply Networks Literature in the After-sales Operations Operations and Variations in Supply Networks Path Concepts in Supply Networks Variation Management in the Pre-sales Supply Network Variation Management in the After-sales Supply Network Concurrent flow planning in the pre- and after-sales supply networks Solution Approach Numerical Analysis Closing Remarks References Appendix 5.A: Notations used in this chapter Appendix 5.B: Flowchart for the solution algorithm developed in Section 5.8 6 Disruption Management using Robust Design in Supply Networks Disruptions in Supply Networks: Robustness, Structural Controllability, and Resilience in Supply Network Design Disruption Management in Supply Networks Literature Disruption Management using Robust Design Modeling Supply Network Modeling for Designing Power Grid Networks under Disruptions Power Grid Supply Network Modeling under Disruptions Power Grid Supply Network Example: A Regional Electric Company Results and Discussions: Power Grid Supply Network Modeling under Disruptions Closing Remarks Acknowledgment Reference Index 7 Structural Controllability in Managing Disruptions in Supply Networks Introduction: Structural Controllability in Supply Networks Structural Controllability in the Literature Controllability Vs. Structural Controllability in Supply Networks Functions of Structural Controllability in Supply Networks Implementation of Structural Controllability in Supply Networks Computational Results of the Proposed Model Three-stage proposed model for managing disruptions Closing Remarks References Index 8 Disruption Management: Resilience Design of Structurally Controllable Supply Networks Introduction: Disruption Management in Supply Networks Significance of Resilience in Designing Structurally Controllable Supply Networks Resilience Analysis and Restoration Strategies Three-stage model for managing disruptions Petroleum Industry Example of Supply Networks under Disruptions Computational Results for Resilient Design of Structural Controllable Supply Networks Closing Remarks References Appendix 8-A: Stage One Mathematical Formulation Appendix 8-B: Stage Two Mathematical Formulation Index 9 Concurrent Management of Disruptions and Variations Variations and Disruptions in Supply Networks Disruption and Variation Management in Supply Networks Literature Our Contributions to the Supply Network Literature Problem Description Variation Management Disruption management Closing Remarks Appendix 9.A: Notation of the model Appendix 9.B: Linearizing Approach Appendix 9.C: Computational Times Appendix 9.D: Fubini’s Theorem Appendix 9.E: BM Value 10 Emerging Technologies and Extension of the Fail-Safe Framework to Other Networks Summary of Contributions Emerging Technologies for Designing Fail-Safe Networked Systems Open Research Challenges Beyond supply chains – towards "engineered networks" – to fail-safe networks in other industries Closing Comments References
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