Modeling and Simulation Support for System of Systems Engineering Applications.
Title:
Modeling and Simulation Support for System of Systems Engineering Applications.
Author:
Rainey, Larry B.
ISBN:
9781118501726
Personal Author:
Edition:
1st ed.
Physical Description:
1 online resource (641 pages)
Contents:
Title Page -- Copyright Page -- Contents -- Foreword -- List of Contributors -- Notes on Contributors -- List of Acronyms -- Part I Overview and Introduction -- Chapter 1 Overview and Introduction to Modeling and Simulation Support for System of Systems Engineering Applications -- 1.1 MOTIVATION -- 1.2 OBJECTIVE -- 1.3 STRUCTURE OF THE HANDBOOK -- REFERENCES -- Chapter 2 The Role of Modeling and Simulation in System of Systems Development -- 2.1 INTRODUCTION -- 2.2 SoS AND CATEGORIES OF SYSTEM -- 2.3 IMPORTANT SYSTEMS AND CATEGORIES -- 2.4 M&S IN THE SoS CATEGORY -- 2.5 ARCHITECTURE, ARCHITECTURE DESCRIPTION, AND DEVELOPMENT -- 2.6 SUMMARY AND CONCLUSIONS -- REFERENCES -- Part II Theoretical and Methodological Considerations -- Chapter 3 Composability -- 3.1 INTRODUCTION -- 3.2 MAIER'S ATTRIBUTES OF AN SoS -- 3.3 CONCEPTUAL MODELING -- 3.4 COMPOSABILITY, INTEROPERABILITY, AND INTEGRATABILITY -- 3.5 THE LCIM -- 3.6 CURRENT STANDARDS -- 3.7 CURRENT RESEARCH -- 3.8 CONCLUSION -- REFERENCES -- Chapter 4 An Approach for System of Systems Tradespace Exploration -- 4.1 INTRODUCTION -- 4.2 BACKGROUND ON TSE -- 4.3 SoS-SPECIFIC CONSIDERATIONS FOR TSE -- 4.4 AN APPROACH FOR SoS TSE -- 4.5 ILLUSTRATIVE CASE: ORDSS -- 4.6 CHAPTER SUMMARY -- REFERENCES -- Chapter 5 Data Policy Definition and Verification for System of Systems Governance -- 5.1 INTRODUCTION -- 5.2 BACKGROUND -- 5.3 ROLE OF A DATA POLICY METHODOLOGY IN THE SoS GOVERNANCE -- 5.4 DESIGN OF THE DATA POLICY METHODOLOGY -- 5.5 EXAMPLE APPLICATION -- 5.6 CONCLUSIONS -- 5.7 ACKNOWLEDGMENTS -- 5.8 DISCLAIMER -- REFERENCES -- Chapter 6 System Health Management -- 6.1 INTRODUCTION -- 6.2 DEFINITIONS -- 6.3 SHM FOR A SYSTEM -- 6.4 SHM MODELS, SIMULATIONS, AND USES -- 6.5 DIFFERENCES BETWEEN SYSTEMS AND SoS -- 6.6 SHM OF SoS -- 6.7 CONCLUSION -- REFERENCES.
Chapter 7 Model Methodology for a Department of Defense Architecture Design -- 7.1 INTRODUCTION -- 7.2 DoD ARCHITECTURE -- 7.3 REFERENCE ARCHITECTURE -- 7.4 MODEL TOOLING -- 7.5 MODEL WORKFLOW -- 7.6 DoDAF ALL VIEWS -- 7.7 DoDAF OPERATIONAL VIEWS -- 7.8 DoDAF SYSTEMS VIEWS -- 7.9 DoDAF DATA AND INFORMATION VIEWS -- 7.10 DoDAF STANDARDS VIEWS -- 7.11 DoDAF SERVICES VIEWS -- 7.12 DoDAF CAPABILITY VIEWS -- 7.13 DoDAF PROJECT VIEWS -- 7.14 CONCLUSION -- REFERENCES -- Part III Theoretical and Methodological Considerations with Applications and Lessons Learned -- Chapter 8 An Agent-Oriented Perspective on System of Systems for Multiple Domains -- 8.1 INTRODUCTION -- 8.2 FROM LARGE-SCALE SYSTEMS TO SoS: MAIN M&S ISSUES -- 8.3 M&S APPROACHES FOR SoS -- 8.4 AN AGENT-ORIENTED PERSPECTIVE FOR SoS -- 8.5 EXPLOITING THE AGENT-ORIENTED PERSPECTIVE: APPLICATION EXAMPLES IN MULTIPLE DOMAINS -- 8.6 CONCLUSIONS AND FUTURE WORKS -- REFERENCES -- Chapter 9 Building Analytical Support for Homeland Security -- 9.1 INTRODUCTION -- 9.2 HOMELAND SECURITY AND SYSTEM OF SYSTEMS -- 9.3 MODELING, SIMULATION, AND ANALYSIS FOR HOMELAND SECURITY -- 9.4 KNOWLEDGE SHARING FRAMEWORK -- 9.5 A PROTOTYPE SYSTEM OF SYSTEMS APPLICATION -- 9.6 SUMMARY -- ACKNOWLEDGMENTS -- DISCLAIMER -- REFERENCES -- Chapter 10 Air Transportation Systems -- 10.1 INTRODUCTION -- 10.2 THEORETICAL CONSIDERATIONS -- 10.3 METHODOLOGY -- 10.4 APPLICATIONS -- 10.5 LESSONS LEARNED -- REFERENCES -- Chapter 11 Systemigram Modeling for Contextualizing Complexity in System of Systems -- 11.1 INTRODUCTION -- 11.2 SYSTEMS THINKING AND SoS -- 11.3 BSSM: AN SoS THINKING TOOL -- 11.4 CASE EXAMPLES -- 11.5 CONCLUSIONS -- REFERENCES -- Chapter 12 Using Modeling and Simulation for System of Systems Engineering Applications in the European Space Agency -- 12.1 INTRODUCTION -- 12.2 APPLICATION CASES.
12.3 METHODS AND TOOLS: THE ESA-AF -- 12.4 LESSONS LEARNED -- 12.5 CONCLUSIONS -- REFERENCES -- Chapter 13 System of Systems Modeling and Simulation for Microgrids Using DDDAMS -- 13.1 INTRODUCTION -- 13.2 MICROGRIDS AND DDDAS -- 13.3 AGENT-BASED SIMULATION -- 13.4 CASE STUDY -- 13.5 RESULTS -- 13.6 SIMULATION RESULTS -- 13.7 CONCLUSIONS AND FUTURE VENUES -- ACKNOWLEDGMENTS -- REFERENCES -- Chapter 14 Composition of Behavior Models for Systems Architecture -- 14.1 INTRODUCTION -- 14.2 COMMON CHARACTERISTICS FOR ARCHITECTURE DESCRIPTIONS -- 14.3 RELATED WORK -- 14.4 THE MP APPROACH TO BEHAVIOR MODELING -- 14.5 MODELING COMPONENT BEHAVIOR -- 14.6 MODELING COMPONENT INTERACTION AND ARCHITECTURE VIEWS -- 14.7 MERGING SCHEMAS -- 14.8 COMPARISON OF MP WITH COMMON SYSTEMS ENGINEERING NOTATIONS -- 14.9 ASSERTIONS AND QUERIES -- 14.10 IMPLEMENTATION PROTOTYPES -- 14.11 CHAPTER SUMMARY -- REFERENCES -- Chapter 15 Joint Training -- 15.1 JOINT TRAINING INTRODUCTION -- 15.2 SoS CHARACTERIZATION FOR ARMY AND JOINT TRAINING M&S -- 15.3 COMPLEXITY OF LAYERED M&S SoS -- 15.4 JLCCTC OVERVIEW -- 15.5 SoS CHARACTERIZATION FOR JLCCTC -- 15.6 JLCCTC SoS ENGINEERING FUNCTIONS -- 15.7 JLCCTC SE KEY THEMES -- 15.8 JLCCTC SE PROCESS -- 15.9 CONCLUSION -- REFERENCES -- Chapter 16 Human in the Loop in System of Systems (SoS) Modeling and Simulation: Applications to Live, Virtual, and Constructive (LVC) Distributed Mission Operations (DMO) Training -- 16.1 INTRODUCTION -- 16.2 BACKGROUND AND SCOPE -- 16.3 MBSE PROCESS AS APPLICABLE TO LVC DMO TRAINING -- 16.4 NSGC PHASE I: INTEGRATING VARIOUS MODELING ARCHITECTURES WITH AFRL SYSTEMS -- 16.5 NSGC PHASE II: ENVIRONMENT ABSTRACTION FOR ADVANCED SA AND SEMANTIC INTEROPERABILITY -- 16.6 APPLYING EA TO NGIC SYSTEMS -- 16.7 CONCLUSIONS AND FUTURE WORK -- ACKNOWLEDGMENTS -- REFERENCES.
Chapter 17 On Analysis of Ballistic Missile Defense Architecture through Surrogate Modeling and Simulation -- 17.1 INTRODUCTION -- 17.2 PROPOSED APPROACH -- 17.3 RESULTS -- 17.4 RECOMMENDATIONS FOR FUTURE WORK AND PRACTICAL APPLICATION -- 17.5 CONCLUSION -- ACRONYMS -- ACKNOWLEDGMENTS -- REFERENCES -- Chapter 18 Medical Enhancements to Sustain Life during Extreme Trauma Care -- 18.1 INTRODUCTION -- 18.2 TAMING THE PROBLEM THROUGH MBSE -- 18.3 MBSE AND ECMO PHASE 1: UNDERSTANDING THE PROBLEM -- 18.4 MBSE AND ECMO PHASE 2: REFACTORING THE MODELS TO BETTER SUPPORT TRADE STUDIES -- 18.5 FUTURE WORK AND CONCLUSIONS -- ACRONYMS -- REFERENCES -- Chapter 19 Utility: Problem-Focused, Effects-Based Analysis (aka Information Value Chain Analysis) -- 19.1 INTRODUCTION -- 19.2 THE NEED FOR A CYBERSECURITY FRAMEWORK -- 19.3 THE PROBLEM -- 19.4 THE ANALYTICAL PROCESS -- 19.5 THE APPLICATION OF THE SE AND OTHER DISCIPLINES -- 19.6 SUMMARY -- REFERENCES -- Chapter 20 A Framework for Achieving Dynamic Cyber Effects through Distributed Cyber Command and Control/Battle Management (C2/BM) -- 20.1 INTRODUCTION -- 20.2 IA AND DEFENSE IN DEPTH: A FAILED STRATEGY -- 20.3 CYBER C2/BM OPERATIONAL ARCHITECTURE -- 20.4 CYBER C2/BM SYSTEMS ARCHITECTURE -- 20.5 CYBER C2/BM AND MISSILE DEFENSE SoSs USE-CASE SCENARIO -- 20.6 CONCLUSIONS -- REFERENCES -- Chapter 21 System of Systems Security -- 21.1 INTRODUCTION -- 21.2 SoS SECURITY REQUIREMENTS -- 21.3 SoS SECURITY CHALLENGES -- 21.4 SoS SECURITY SOLUTIONS -- 21.5 INTRUSION-TOLERANT SoS -- 21.6 MODELING, SIMULATION, AND EMULATION FOR SoS SECURITY -- 21.7 CONCLUDING REMARKS -- NOTE -- REFERENCES -- Part IV Conclusions -- Chapter 22 Toward a Research Agenda for M&S Support of System of Systems Engineering -- 22.1 RELEVANT EFFORTS TOWARD A RESEARCH AGENDA -- 22.2 CURRENT M&S SUPPORT.
22.3 ORGANIZATIONAL CHALLENGES OF SYSTEM OF SYSTEMS -- 22.4 AGENT-DIRECTED DECISION SUPPORT SIMULATION SYSTEMS -- 22.5 TOPICS OF A RESEARCH AGENDA TO IMPROVE SoSE -- 22.6 CONCLUSIONS -- REFERENCES -- Index -- EULA.
Abstract:
Larry B. Rainey, PhD, is Founder and Senior Partner at Integrity Systems and Solutions, LLC, a consulting firm that specializes in modeling and simulation within missile defense and space operations domains. With more than 20 years of systems engineering experience, Dr. Rainey has also worked for the Missile Defense Agency and other U.S. Department of Defense organizations that address system of systems challenges. Andreas Tolk, PhD, is Chief Scientist of SimIS Inc., which provides modeling and simulation services, enterprise architecture knowledge, and integration solutions to its customers. Dr. Tolk is also Adjunct Professor in the Department of Engineering Management and Systems Engineering of Old Dominion University as well as the author of Engineering Principles of Combat Modeling and Distributed Simulation, which is published by Wiley.
Local Note:
Electronic reproduction. Ann Arbor, Michigan : ProQuest Ebook Central, 2017. Available via World Wide Web. Access may be limited to ProQuest Ebook Central affiliated libraries.
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