Table of Contents

• Exploring Factors and Policies for Poverty by Agent-based SimulationKonstantinos Raptis, George A. Vouros, Evangelos Kapros. 1-10 [doi]
• Model Based Systems Engineering for System of Systems Using Agent-based ModelingPaulette Acheson, Cihan H. Dagli, Nil H. Kilicay-Ergin. 11-19 [doi]
• Augmented Cognition in Human-System Interaction through Coupled Action of Body Sensor Network and Agent Based ModelingSiddhartha Agarwal, Cihan H. Dagli. 20-28 [doi]
• GAIA: A CAD Environment for Model-Based Adaptation of Game-Playing Software AgentsSpencer Rugaber, Ashok K. Goel, Lee Martie. 29-38 [doi]
• Progressive Modeling: The Process, the Principles, and the ApplicationsMohamed Ismail. 39-48 [doi]
• Introduction to Information Visualization (InfoVis) Techniques for Model-Based Systems EngineeringOleg Sindiy, Krystof Litomisky, Scott Davidoff, Frank Dekens. 49-58 [doi]
• Complex System Simulation: Proposition of a MBSE Framework for Design-Analysis IntegrationPascal Graignic, Thomas Vosgien, Marija Jankovic, Vincent Tuloup, Jennifer Berquet, Nadege Troussier. 59-68 [doi]
• Approach for the Conceptual Design Validation of Production Systems using Automated Simulation-Model GenerationV. Rudtsch, Frank Bauer, Jürgen Gausemeier. 69-78 [doi]
• Supporting Multidisciplinary Vehicle Analysis Using a Vehicle Reference Architecture Model in SysMLJaclyn M. Branscomb, Christiaan J. J. Paredis, Judy Che, Mark J. Jennings. 79-88 [doi]
• Network Science Enabled Cost Estimation in Support of MBSEMatthew Dabkowski, Jose Estrada, Ben Reidy, Ricardo Valerdi. 89-97 [doi]
• Application of Integrated Modeling and Analysis to Development of Complex SystemsHongman Kim, David Fried, Peter Menegay, Grant Soremekun, Christopher Oster. 98-107 [doi]
• Extending Design Capabilities of SysML with Trade-off Analysis: Electrical Microgrid Case StudyDimitrios Spyropoulos, John S. Baras. 108-117 [doi]
• Integrating Analytical Models with Descriptive System Models: Implementation of the OMG SyML Standard for the Tool-specific Case of MapleSim and MagicDrawSebastian J. I. Herzig, Nicolas F. Rouquette, Stephen Forrest, J. Steven Jenkins. 118-127 [doi]
• Model Based Systems Engineering using VHDL-AMSPatrice Micouin. 128-137 [doi]
• Interactive Tree Decomposition Tool for Reducing System Analysis ComplexityShahan Yang, Baobing Wang, John S. Baras. 138-147 [doi]
• A System Dynamics Perspective of Patient Satisfaction in HealthcareMisagh Faezipour, Susan Ferreira. 148-156 [doi]
• Using System Dynamics for Sustainable Water Resources Management in SingaporeXi Xi, Kim-Leng Poh. 157-166 [doi]
• Compositional Analysis of Dynamic Bayesian Networks and Applications to Complex Dynamic System DecompositionShahan Yang, Yuchen Zhou, John S. Baras. 167-176 [doi]
• Real-Time Simulation and Control of Large Scale Distributed Discrete Event SystemsFernando G. Gonzalez. 177-186 [doi]
• Object-Oriented Discrete Event Simulation Modeling Environment for Aerospace Vehicle Maintenance and Logistics ProcessCurtis Iwata, Dimitri Mavris. 187-196 [doi]
• Model-based Control of a Handling System with SysMLChristian Brecher, Johannes A. Nittinger, Andreas Karlberger. 197-205 [doi]
• Developing a Holistic Modeling Approach for Search-based System ArchitectingRenzhong Wang, Cihan H. Dagli. 206-215 [doi]
• Model-Based Systems Engineering Design and Trade-Off Analysis with RDF GraphsNefretiti Nassar, Mark Austin. 216-225 [doi]
• Pluggable Analysis Viewpoints for Design Space ExplorationMichael Masin, Lior Limonad, Aviad Sela, David Boaz, Lev Greenberg, Nir Mashkif, Ran Rinat. 226-235 [doi]
• Choosing Aggregation Functions for Modeling System of Systems PerformanceDavid Warshawsky, Dimitri Mavris. 236-244 [doi]
• A Fuzzy Evaluation method for System of Systems Meta-architecturesLouis Pape, Kristin Giammarco, John M. Colombi, Cihan H. Dagli, Nil H. Kilicay-Ergin, George Rebovich. 245-254 [doi]
• A Robust Optimization Framework to Architecting System of SystemsNavindran Davendralingam, Daniel DeLaurentis. 255-264 [doi]
• Dependency Analysis of System-of-Systems Operational and Development NetworksCesare Guariniello, Daniel DeLaurentis. 265-274 [doi]
• An Approach to Facilitate Decision Making on Architecture Evolution StrategiesZhemei Fang, Daniel DeLaurentis, Navindran Davendralingam. 275-282 [doi]
• Using Architecture Patterns to Architect and Analyze Systems of SystemsRoy S. Kalawsky, D. Joannou, Y. Tian, A. Fayoumi. 283-292 [doi]
• Requirements for High Level Models Supporting Design Space Exploration in Model-based Systems EngineeringSteven P. Haveman, G. Maarten Bonnema. 293-302 [doi]
• Systems Engineering Management Based on a Discipline-Spanning System ModelJürgen Gausemeier, Tobias Gaukstern, Christian Tschirner. 303-312 [doi]
• Model-Based System Integration (MBSI) - Key Attributes of MBSE from the System Integrator's PerspectivePaul R. Montgomery. 313-322 [doi]
• Organizational Simulation for Model Based Systems EngineeringDaniel A. O'Neil, Mikel D. Petty. 323-332 [doi]
• A Stackelberg Solution to Joint Optimization Problems: A Case Study of Green DesignYitao Liu, Yangjian Ji, Roger Jianxin Jiao. 333-342 [doi]
• Guiding Cooperative Stakeholders to Compromise Solutions Using an Interactive Tradespace Exploration ProcessMatthew E. Fitzgerald, Adam M. Ross. 343-352 [doi]
• 2-A) for Function-Based Modeling of Technical SystemsAlbert Albers, Christian Zingel. 353-362 [doi]
• On using Multiple Interoperating Models to Address Complex ProblemsAhmed Abu Jbara, Alexander H. Levis, Abbas K. Zaidi. 363-372 [doi]
• Enabling Systems Modeling Language Authoring in a Collaborative Web-based Decision Support ToolDaniel Browne, Robert Kempf, Aaron Hansen, Michael O'Neal, William Yates. 373-382 [doi]
• Ontology for Systems EngineeringL. C. van Ruijven. 383-392 [doi]
• Applying Epistemology to System Engineering: An IllustrationReginald Ratcliff. 393-402 [doi]
• Ontologies of Time and Time-based Reasoning for MBSE of Cyber-Physical SystemsLeonard Petnga, Mark Austin. 403-412 [doi]
• Constructing and Evaluating "as-is" and "to-be" OPM Models for the Healthcare Sector for Adoption of VscanJohn Ahmet Erkoyuncu, Sergey Bolshchikov, Daniel Steenstra, Rajkumar Roy, Dov Dori. 413-422 [doi]
• Need Finding for the Development of a Conceptional, Engineering- Driven Framework for Improved Product DocumentationSören Ulonska, Torgeir Welo. 423-432 [doi]
• Framework for Implementing Internal Part Traceability in Iron FoundryRhythm S. Wadhwa, Terje K. Lien. 433-439 [doi]
• Investigating the Impacts of Modeling Variables- A Case Study with Smart Grid Demand ResponseSatya S. Pogaru, Michael Z. Miller, Scott J. Duncan, Dimitri N. Mavris. 440-448 [doi]
• Modeling Combinatorial Optimization Problems using ElectimizeMohamed Abdel-Raheem, Ahmed Khalafallah. 449-458 [doi]
• Simulating Corrective Maintenance: Aggregating Component Level Maintenance Time Uncertainty at the System LevelElizabeth A. Saltmarsh, Dimitri N. Mavris. 459-468 [doi]
• Review of Agile Case Studies for Applicability to Aircraft Systems IntegrationRobert Carlson, Richard Turner. 469-474 [doi]
• Rapid Development: A Content Analysis Comparison of Literature and Purposive Sampling of Rapid Reaction ProjectsAndrew R. Smith, John M. Colombi, Joseph R. Wirthlin. 475-482 [doi]
• Enablers and Inhibitors of Expediting Systems EngineeringSupannika Koolmanojwong, Jo Ann Lane. 483-491 [doi]
• Lean Systems Engineering (LSE): Hands-on Experiences in Applying LSE to a Student Eco-Car Build ProjectTorgeir Welo, Oluf Roar Bjørset Tonning, Terje Rølvåg. 492-501 [doi]
• Observations on Expedited Systems Engineering Practices in Military Rapid Development ProjectsDebra Facktor Lepore, John M. Colombi, Jennifer Ford, Ryan Colburn, Yosef Morris. 502-511 [doi]
• Goal-question-Kanban: Applying Lean Concepts to Coordinate Multi-level Systems Engineering in Large EnterprisesRichard Turner, Jo Ann Lane. 512-521 [doi]
• Towards the Design of Complex Evolving Networks with High Robustness and ResilienceZhenghui Sha, Jitesh H. Panchal. 522-531 [doi]
• Exploiting Stand-in Redundancy to Improve Resilience in a System-of-Systems (SoS)Payuna Uday, Karen B. Marais. 532-541 [doi]
• METIS: Dependable Cooperative Systems for Public SafetyTeun Hendriks, Piërre van de Laar. 542-551 [doi]
• The Enterprise AID Methodology: ApplicationPatrick T. Hester, Thomas J. Meyers. 552-561 [doi]
• The Enterprise AID methodology: ConceptsThomas J. Meyers, Patrick T. Hester. 562-570 [doi]
• Intellectual Property Protection and Secure Knowledge Management in Collaborative Systems EngineeringMarco Grimm, Reiner Anderl. 571-580 [doi]
• User-centred System Design Approach Applied on a Robotic Flexible EndoscopeJeroen G. Ruiter, Mascha C. van der Voort, G. Maarten Bonnema. 581-590 [doi]
• A Systems Engineering Based Approach for Informing Extracorporeal Membrane Oxygenation (ECMO) Therapy ImprovementsNathan L. Adams, L. Drew Pihera. 591-600 [doi]
• Requirements Analysis for Safer Ambulance Patient CompartmentsMehdi Dadfarnia, Y. Tina Lee, Deogratias Kibira, Allison Barnard Feeney. 601-610 [doi]
• Modeling-based Design of Strategic Supply Chain Networks for Aircraft ManufacturingZilin "Elizabeth" Tang, Marc Goetschalckx, Leon F. McGinnis. 611-620 [doi]
• Application of Systems Engineering to USAF Small Business Innovative Research (SBIR)Phillip O'Connell, J. Robert Wirthlin, James Malas, Som Soni. 621-630 [doi]
• Evaluating the Allocation of Border Security System of Systems RequirementsDavid Flanigan, Peggy Brouse. 631-638 [doi]
• Impact of Operational Systems on Supplier's Response Under Performance-based ContractsH. Mirzahosseinian, R. Piplani. 639-647 [doi]
• Concept Analysis to Enrich Manufacturing Service Capability ModelsJunho Shin, Boonserm Kulvatunyou, Yunsu Lee, Nenad Ivezic. 648-657 [doi]
• Trading off Supply Chain Risk and Efficiency through Supply Chain DesignMarc Goetschalckx, Edward Huang, Pratik Mital. 658-667 [doi]
• Living Labs, Innovation Districts and Information Marketplaces: A Systems Approach for Smart CitiesEllie Cosgrave, Kate Arbuthnot, Theo Tryfonas. 668-677 [doi]
• Service Systems Engineering ApplicationsAmit J. Lopes, Ricardo Pineda. 678-687 [doi]
• A Performance-Based System Maturity Assessment FrameworkRyan Gove, Joe Uzdzinski. 688-697 [doi]
• Development Interdependency Modeling for System-of-Systems (SoS) using Bayesian Networks: SoS Management Strategy PlanningSeung Yeob Han, Daniel DeLaurentis. 698-707 [doi]
• Development and Implementation of Micro Autonomous Systems and Technologies (MAST) Interactive Reconfigurable Matrix of Alternatives (M-IRMA) for Concept SelectionZohaib T. Mian, Patrick Dees, Leslie Hall, Dimitri Mavris. 708-717 [doi]
• A Generalized Options-based Approach to Mitigate Perturbations in a Maritime Security System-of-SystemsNicola Ricci, Adam M. Ross, Donna H. Rhodes. 718-727 [doi]
• IT Project Failure: A Proposed Four-Phased Adaptive Multi-Method ApproachRosana Stoica, Peggy Brouse. 728-736 [doi]
• Migrating To The Cloud: Lessons And Limitations Of 'Traditional' IS Success ModelsImran Khan Azeemi, Mike Lewis, Theo Tryfonas. 737-746 [doi]
• The Evolution of Software and Its Impact on Complex System Design in Robotic Spacecraft Embedded SystemsRoy Butler, Michael Pennotti. 747-756 [doi]
• Incorporating Electrical Distribution Network Structure into Energy Portfolio Optimization for an Isolated GridMatthieu Corrand, Scott J. Duncan, Dimitri N. Mavris. 757-766 [doi]
• Real-time Scheduling Techniques for Electric Vehicle Charging in Support of Frequency RegulationJoosung Kang, Scott J. Duncan, Dimitri N. Mavris. 767-775 [doi]
• An Intelligent Controller for the Smart GridFernando G. Gonzalez. 776-785 [doi]
• An Approach to Understand and Elicit Requirements using Systemic Models: Ensuring a Connect from Problem Context to RequirementsPadmalata Nistala, Supriya Kummamuru, M. G. P. L. Narayana. 786-795 [doi]
• A Literature Survey on International Standards for Systems Requirements EngineeringFlorian Schneider, Brian Berenbach. 796-805 [doi]
• Value-Based Requirements Prioritization: Usage ExperiencesNupul Kukreja, Sheetal Swaroop Payyavula, Barry W. Boehm, Srinivas Padmanabhuni. 806-813 [doi]
• A Systems Approach Towards Reliability-Centred Maintenance (RCM) of Wind TurbinesJoel Igba, Kazem Alemzadeh, Ike Anyanwu-Ebo, Paul Gibbons, John Friis. 814-823 [doi]
• Modeling and Analysis of Safety in Early DesignDavid C. Jensen, Irem Y. Tumer. 824-833 [doi]
• The Next Generation of Grand Challenges for Systems Engineering ResearchRoy S. Kalawsky. 834-843 [doi]
• Empirical Findings about Risk and Risk Mitigating Actions from a Legacy Archive of a Large Design OrganizationChuck Hsiao, Richard Malak, Irem Y. Tumer, Toni Doolen. 844-852 [doi]
• Alternatives for Reducing the Risk of Transmission of Tuberculosis in a Typical Hospital Clinic in Developing African CountriesAdeel Khalid, Christina Scherrer. 853-862 [doi]
• Risk Analysis and Mitigation Strategy for ACDChandru Mirchandani. 863-869 [doi]
• An improved user experience model with cumulative prospect theoryFeng Zhou, Roger Jianxin Jiao. 870-877 [doi]
• The Conundrum of Verification and Validation of Social Science-based ModelsHeidi Ann Hahn. 878-887 [doi]
• A Software Tool for the Design of Critical Robot Missions with Performance GuaranteesDamian M. Lyons, Ronald C. Arkin, P. Nirmal, S. Jiang, T. M. Liu. 888-897 [doi]
• An Evidence-based Systems Engineering (SE) Data Item DescriptionBarry W. Boehm, Jo Ann Lane, Supannika Koolmanojwong, Richard Turner. 898-907 [doi]
• Contextual- and Behavioral-Centric Stakeholder IdentificationAlejandro Salado, Roshanak Nilchiani. 908-917 [doi]
• A Proposed Technology Platform Framework to Support Technology ReuseDaniel Corin Stig. 918-926 [doi]
• Using Maslow's hierarchy of needs to define elegance in system architectureAlejandro Salado, Roshanak Nilchiani. 927-936 [doi]
• The W-Model - Using Systems Engineering for AdaptronicsRoland Nattermann, Reiner Anderl. 937-946 [doi]
• Systems Engineering Methodology for Linking Requirements to Design Complexity and Manufacturing Trade Space ConstraintsTyler Milner, Michael Volas, Albert Sanders. 947-956 [doi]
• Evaluation of a Collaborative Aerospace Lifecycle Systems Engineering Master's ProgramJackelynne Silva, Daniel P. Schrage, Nikki Bauer, Richard Meng, Phillip Wallace. 957-966 [doi]
• Systems Engineering Graduate Research as Part of Curriculum - Summary of ResearchAdeel Khalid. 967-975 [doi]
• Getting Students Hooked on Systems Engineering!Cecilia Haskins. 976-982 [doi]
• Enabling Systems Engineering Program Outcomes via Systems Engineering Body of KnowledgeMassood Towhidnejad, Timothy L. J. Ferris, Alice Squires, Ray Madachy. 983-989 [doi]
• Experiences From Creating the Guide to the Systems Engineering Body of Knowledge (SEBoK) v. 1.0Devanandham Henry, Arthur B. Pyster, David H. Olwell, Nicole Hutchison, Stephanie Enck, James F. Anthony Jr.. 990-999 [doi]
• Analysis of the References from the Guide to the Systems Engineering Body of Knowledge (SEBoK)David H. Olwell, Devanandham Henry, Arthur B. Pyster, Nicole Hutchison, Stephanie Enck, James F. Anthony Jr.. 1000-1006 [doi]
• Combining Hard and Soft System Thinking: The Development of a Value Improvement Model for a Complex Linear Friction Welding Repetitive Process (lfw-VIM)Darren T. Williams, Richard Beasley, Paul M. Gibbons. 1007-1016 [doi]
• The Product and Process Focus within NASA Systems EngineeringJames Heusner. 1017-1026 [doi]
• Systems Thinking: A Comparison between Chinese and Western ApproachesXing Pan, Ricardo Valerdi, Rui Kang. 1027-1035 [doi]
• Creating a Marketplace for Multidisciplinary Multi-university Systems Engineering Capstone ProjectsMark Ardis, Eirik Hole, Joe Manfredonia. 1036-1042 [doi]
• Facilitating Authentic Reasoning About Complex Systems in Middle School Science EducationDavid A. Joyner, David M. Majerich, Ashok K. Goel. 1043-1052 [doi]
• Measures of Effectiveness for S.T.E.M. Program: The Arizona Science of BaseballRicardo Valerdi, Jose Monreal Jr., Daniel Valenzuela 0002, Kenji Hernandez. 1053-1061 [doi]
• Representing Advances in Systems Engineering by Using an Electronic Process GuideThammanoon Kawinfruangfukul, Supannika Koolmanojwong, Nupul Kukreja. 1062-1071 [doi]
• Integrating Problem Solving and Research Methods Teaching for Systems Practice in EngineeringMike Yearworth, Gordon Edwards, John Davis, Katharina Burger, Adrian Terry. 1072-1081 [doi]
• Designing an Experiential Learning Environment for Logistics and Systems EngineeringDouglas A. Bodner, Jon P. Wade, William R. Watson, George I. Kamberov. 1082-1091 [doi]
• Systems Engineering Research MethodsGerrit Muller. 1092-1101 [doi]
• Applying Systems Engineering to Survey ResearchClement Smartt, Susan Ferreira. 1102-1111 [doi]
• Positive Deviance Approach for Identifying Next-Generation System Engineering Best PracticesSteven Doskey, Thomas A. Mazzuchi, Shahram Sarkani. 1112-1121 [doi]
• System Design Framework for Equity/Fairness among ActorsDatu Buyung Agusdinata. 1122-1131 [doi]
• Multi-level Modeling of Complex Socio-Technical SystemsTom McDermott, William Rouse, Seymour Goodman, Margaret Loper. 1132-1141 [doi]
• A Socio-Technical Perspective on Interdisciplinary Interactions During the Development of Complex Engineered SystemsAnna-Maria Rivas McGowan, Shanna Daly, Wayne Baker, Panos Y. Papalambros, Colleen M. Seifert. 1142-1151 [doi]
• Value Modeling for a Space Launch SystemShari Keller, Paul Collopy. 1152-1160 [doi]
• Value-Based Assessment of DoD Acquisitions ProgramsIan Maddox, Paul Collopy, Phillip A. Farrington. 1161-1169 [doi]
• An Orthogonal Framework for Improving Life Cycle AffordabilityBarry W. Boehm, Jo Ann Lane, Supannika Koolmanojwong. 1170-1179 [doi]
• A Cost-Based Decision Tool for Valuing DoD System Design OptionsE. Ryan, D. Jacques, J. Ritschel, J. Colombi. 1180-1189 [doi]