PART 1: Systems of Systems, Concepts and Practical Illustrations
by Jean-René Ruault, Dominique Luzeaux
Systems of Systems
- Cover
- Title Page
- Copyright
- Author Biographies
- Introduction
- PART 1: Systems of Systems, Concepts and Practical Illustrations
- Chapter 1: Systems of Systems: From Concept to Actual Development
- 1.1. Network omnipresence creating a worldwide environment
- 1.2. Increasing complexity of the environment
- 1.3. Towards a definition of the concept of system of systems
- 1.4. Control of the system of systems
- 1.5. Tools for the control of the system of systems
- 1.6. The need for standardization
- 1.7. The human factor in systems of systems
- 1.8. Budgetary aspects of the systems of systems
- 1.9. The need for governance
- 1.10. Conclusion
- 1.11. Appendix: system of systems’ definitions in literature
- 1.12. Bibliography
- Chapter 2: Emergence and Complexity of Systems of Systems
- Chapter 3: Contractual Aspects of the Acquisition and Use of Systems of Systems
- Chapter 4: The Human Factor within the Context of Systems of Systems
- 4.1. Introduction
- 4.2. Definition and epistemological aspects
- 4.3. The issue
- 4.4. Current human factors in systems engineering
- 4.5. The organizations’ complexity from the standpoint of social sciences: impacts on the systems of systems.
- 4.6. Social sciences implemented within the context of systems of systems
- 4.7. Recognizable good practices in the field of organizations
- 4.8. Conclusion
- 4.9. Acknowledgments
- 4.10. Bibliography
- Chapter 5: Space Communication and Observation System of Systems
- Chapter 6: Intelligent Transport Systems
- Chapter 7: Systems of Systems in the Healthcare Field
- 7.1. Introduction
- 7.2. From capability challenges to the design of systems of systems
- 7.3. Personal service, the main characteristic of systems within the healthcare field
- 7.4. Coordination of the medical and paramedical agents, in hospitals and in private practices
- 7.5. The development of information technologies and their interoperability, heart of the healthcare networks issue
- 7.6. Difficulties encountered
- 7.7. Conclusion
- 7.8. Acknowledgments
- 7.9. Bibliography
- Chapter 8: Critical Infrastructure Protection
- Chapter 9: Globalization and Systemic Impacts
- Chapter 1: Systems of Systems: From Concept to Actual Development
- PART 2: Systems of Systems Engineering, Methods, Standards and Tools
- Chapter 10: Methods and Tools for Systems of Systems Engineering
- 10.1. Systems of systems engineering: from the control of complexity to the necessity of a model-driven approach
- 10.2. Architecture
- 10.3. From architecture to detailed design: reference architectures
- 10.4. Requirement traceability and engineering tools
- 10.5. Reverse engineering and impact studies
- 10.6. Distributed simulation tools for model engineering
- 10.7. Global control of operational security via testability
- 10.8. Towards a virtuous circle of simulation-tests to control the tests
- 10.9. Collaborative work tools
- 10.10. Conclusion
- 10.11. Acknowledgements
- 10.12. Bibliography
- Chapter 11: Model-driven Design and Simulation
- Chapter 12: Standardization in the Field of Systems and Systems of Systems Engineering
- 12.1. Introduction
- 12.2. Example of the importance of standards in the interoperability of systems and systems of systems
- 12.3. Standards used in the field of systems and systems of systems
- 12.4. Application and adaptation of system engineering standards in the context of systems of systems
- 12.5. Implementation of standards in the context of systems of systems
- 12.6. Conclusion
- 12.7. Acknowledgements
- 12.8. Appendix A. Standard relative to business process modeling
- 12.9. Appendix B. Standard relative to the Web services business process execution language
- 12.10. Appendix C. Ontology definition metamodel specification
- 12.11. Appendix D. UML profile for DoDAF/MODAF (USA Department of Defense and UK Ministry of Defense Architecture Framework)
- 12.12. Appendix E. Standard relative to software-intensive systems architecture
- 12.13. Appendix F. Unified modeling language
- 12.14. Appendix G. Systems modeling language
- 12.15. Appendix H. Good practices of IT service management, ITIL
- 12.16. Appendix I. Standard relative to IT services management
- 12.17. Appendix J. Software engineering - Product quality
- 12.18. Appendix J.1. Standard ISO 9126, part 1, quality model
- 12.19. Appendix J.2. Standard ISO 9126, part 3, internal metrics
- 12.20. Appendix K. Standard on software product quality requirements and evaluation
- 12.21. Appendix L. Standard on the common criteria for IT security evaluation
- 12.22. Appendix M. Standard relative to a system’s life cycle process
- 12.23. Appendix N. Standard relative to the processes for engineering a system
- 12.24. Appendix O. Standard for the application and management of the systems engineering process
- 12.25. Appendix P. Standard relative to software life cycle processes
- 12.26. Appendix Q. Standard relative to software measurement process
- 12.27. Appendix R. Standard relative to software product evaluation
- 12.28. Appendix S. Standard on systems engineering, product and design data exchange
- 12.29. Appendix T. Standard on the exchange of product model data, products life cycle support
- 12.30. Bibliography
- Chapter 10: Methods and Tools for Systems of Systems Engineering
- Conclusion
- List of Authors
- Index
PART 1
Systems of Systems, Concepts and Practical Illustrations
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