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Agent-Directed Simulation and Systems Engineering [Kõva köide]

Edited by (Auburn University, Auburn, USA), Edited by (University of Ottawa, Ottawa, Canada)
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Agent-Directed Simulation and Systems EngineeringSuurem pilt
Teised raamatud teemal:
Püsilink: https://www.kriso.ee/db/9783527407811.html
Märksõnad:
The only book to present the synergy between modeling and simulation, systems engineering, and agent technologies expands the notion of agent-based simulation to also deal with agent simulation and agent-supported simulation. Accessible to both practitioners and managers, it systematically addresses designing and building agent systems from a systems engineering perspective.

Arvustused

"They provide an overview of the... areas; describe principles, methods, tools, and environments; and discuss application in such areas as testing and evaluation, process performance analysis, decision support, and organization and work system engineering." (SciTech Book News, December 2010)

It is probably the only book to date, to present the synergy between modeling and simulation, systems engineering, and agent technologies and to also deal with agent simulation and agent-supported simulation. ( Inside OR, November 2009)

Foreword.
Preface.
List of Contributors.
Part One. Background.
1. Modeling and Simulation: a Comprehensive and Integrative View (Tuncer  I. Ören).
1.1 Introduction.
1.2 Simulation: Several Perspectives.
1.3 Model-Based Activities.
1.4 Synergies of M&S: Mutual and Higher-Order Contributions.
1.5 Advancement of M&S.
1.6 Preeminence of M&S.
1.7 Summary and Conclusions.
2. Autonomic Introspective Simulation Systems (Levent Yilmaz and Bradley Mitchell).
2.1 Introduction.
2.2 Perspective and Background on Autonomic Systems.
2.3 Decentralized Autonomic Simulation Systems: Prospects and Issues.
2.4 Symbiotic Adaptive Multisimulation: An Autonomic Simulation System.
2.5 Cast Study: UAV Search and Attack Scenario.
2.6 Validation and Preliminary Experimentation with SAMS.
2.7 Summary.
Part Two. Agents and Modeling and Simulation.
3. Agents: Agenthood, Agent Architectures, and Agent Taxonomies (Andreas Tolk and Adelinde M. Uhrmacher)
3.1 Introduction.
3.2 Agenthood.
3.3 Agent Architectures.
3.4 Agenthood Implications for Practical Applications.
3.5 Agent Taxonomies.
3.6 Concluding Discussion.
4. Agent-directed Simulation (Levent Yilmaz and Tuncer I. Ören).
4.1 Introduction.
4.2 Background.
4.3 Categorizing the Use of Agents in Simulation.
4.4 Agent Simulation.
4.5 Agent-Based Simulation.
4.6 Agent-Supported Simulation.
4.7 Summary.
Part Three. Systems Engineering and Quality Assurance for Agent-Directed Simulation.
5. Systems Engineering: Basic Concepts and Life Cycle (Steven m. Biemer and Andrew P. Sage).
5.1 Introduction.
5.2 Agent-Based Systems Engineering.
5.3 Systems Engineering Definition and Attributes.
5.4 The System Life Cycle.
5.5 Key Concepts of Systems Engineering.
5.6 Summary.
6. Quality Assurance of Simulation Studies of Complex Networked Agent Systems (Osman Balci, William F. Ornsby, and Levent Yilmaz).
6.1 Introduction.
6.2 Characteristics of Open Agent Systems.
6.3 Issues in the Quality Assurance of Agent Simulations.
6.4 Large-Scale Open Complex Systems – The Network-Centric  System Metaphor.
6.5 M&S Challenges for Large-Scale Open Complex Systems.
6.6 Quality Assessment of Simulation of Large-Scale Open Systems.
6.7 Conclusions.
7. Failure Avoidance in Agent-directed Simulation: Beyond Conventional v&v and qa (Tuncer I. Ören and Levent Yilmaz).
7.1 Introduction.
7.2 What Can Go Wrong.
7.3 Assessment for M&S.
7.4 Need for Multiparadigm Approach for Successful M&S Projects.
7.5 Failure Avoidance for Agent-Based Modeling.
7.6 Failure Avoidance for Systems Engineering.
7.7 Conclusion.
8. Toward Systems Engineering for Agent-directed Simulation (Levent Yilmaz).
8.1 Introduction.
8.2 What Is a System?
8.3 Modeling and Simulation.
8.4 The Synergy of M&S and SE.
8.5 Toward Systems Engineering for agent-Directed Simulation.
8.6 Sociocognitive Framework for ADS-SE.
8.7 Case Study: Human-Centered Work Systems.
8.8 Conclusion.
9. Design and Analysis of Organization Adaptation in Agent Systems (Virginia Dignum, Frank Dignum, and Liz Sonenberg).
9.1 Introduction.
9.2 Organizational Model.
9.3 Organizational Structure.
9.4 Organization and Environment.
9.5 Organization and Autonomy.
9.6 Reorganization.
9.7 Organizational Design.
9.8 Understanding Simulation of Reorganization.
9.9 Conclusions.
10. Programming Languages, Environments, and Tools for Agent-directed Simulation (Yu Zhang, Mark Lewis, and Maarten Sierhuis).
10.1 Introduction.
10.2 Architectural Style for ADS.
10.3 Agent-Directed Simulation – An Overview.
10.4 A Survey of Five ADS Platforms.
10.5 Brahms – A Multiagent Simulation for Work System Analysis and Design.
10.6 CASESim – A Multiagent Simulation for Cognitive Agents for Social Environment
  10.7 Conclusion.
11. Simulation for Systems Engineering (Joachim Fuchs).
11.1 Introduction.
11.2 The Systems Engineering Support.
11.3 Modeling and Simulation Support.
11.4 Facilities.
11.5 An Industrial Use Case: Space Systems.
11.6 Outlook.
11.7 Conclusions.
12. Agent-directed Simulation for Systems Engineering (Philip S. Barry, Matthew T.K. Koehler, and Brian F. Tivnan).
12.1 Introduction.
12.2 New Approaches Are Needed.
12.3 Agent-Directed Simulation for the Systems Engineering of Human Complex Systems.
12.4 A Model-Centered Science of Human Complex Systems.
12.5 An Infrastructure for the Engineering of Human Complex Systems.
12.6 Case Studies.
12.7 Summary.
Part Four. Agent-Directed Simulation for Systems Engineering.
13. Agent-implemented Experimental Frames for Net-centric Systems Test and Evaluation (Bernard P. Zeigler, Dane Hall, and Manuel Salas).
13.1 Introduction.
13.2 The Need for Verification Requirements.
13.3 Experimental Frames and System Entity Structures.
13.4 Decomposition and Design of System Architecture.
13.5 Employing Agents in M&S-Based Design, Verification and Validation.
13.6 Experimental Frame Concepts for Agent Implementation.
13.7 Agent-Implemented Experimental Frames.
13.8 DEVS-SOA: Net-Centric Execution Using Simulation Service.
13.9 Summary and Conclusions.
14. Agents and Decisions Support Systems (Andreas Tolk, Poornima   Madhavan, Jeffrey W. Tweedale, and Lakhmi C. Jain).
14.1 Introduction.
14.2 Cognitive Foundations for Decision Support.
14.3 Technical Foundations for Decision Support.
14.4 Examples for Intelligent and Agent-Directed Decision Support Simulation Systems.
14.5 Conclusion.
15. Agent Simulation for Software Process Performance Analysis (Levent Yilmaz and Jared Phillips).
15.1 Introduction.
15.2 Related Work.
15.3 Team-RUP: A Framework for agent Simulation of Software Development Organizations.
15.4 Design and Implementation of Team-RUP.
15.5 Results and Discussion.
15.6 Conclusions.
16. Agent-Directed Simulation for Manufacturing System Engineering (Jeffrey S. Smith, Erdal Sahin, and Levent Yilmaz).
16.1 Introduction.
16.2 Simulation Modeling and Analysis for Manufacturing Systems.
16.3 Agent-Directed Simulation for Manufacturing Systems.
16.4 Summary.
17. Organization and Work Systems Design and Engineering: from Simulation to Implementation of Multiagent Systems (Maarten Sierhuis, William J. Clancey, and Chin H. Seah).
17.1 Introduction.
17.2 Work Systems Design.
17.3 Modeling and Simulation of Work Systems.
17.4 Work Practice Modeling and Simulation.
17.5 The Brahms Language.
17.6 Systems Engineering: From Simulation to Implementation.
17.7 A Case Study: The OCA Mirroring System.
17.8 Conclusion.
Index.
Levent Yilmaz is assistant professor of computer science and software engineering at the College of Engineering, Auburn University, USA. Before joining the faculty in 2003, Professor Yilmaz worked as a senior research engineer in the Simulation and Software Division of Trident Systems, Inc., where he held the position of a lead project engineer and principle investigator for advanced simulation methodology, model-based verification, and simulation interoperability efforts. Professor Yilmaz received his Ph.D. and M.S. degrees from the Virginia Polytechnic Institute and State University, Blacksburg, USA.

Tuncer I. Oren is professor emeritus of computer science at the School of Information Technology and Engineering (SITE) of the University of Ottawa, Canada, where he held a chair as full professor from 1981 to 1996. Professor Oren's research interests focus on the topics of modelling and simulation, agent-directed simulation, cognitive simulation, reliability and quality, and ethics in simulation. He has published over 300 papers and several books.