| 查看: 504 | 回复: 3 | |||
| 【奖励】 本帖被评价2次,作者xiaowu759增加金币 2 个 | |||
| 当前主题已经存档。 | |||
[资源]
【分享】新书介绍:Simulation-Based Engineering of Complex Systems
|
|||
|
1. Edition - April 2009 109.- Euro 2009. 504 Pages, Hardcover ISBN-10: 0-470-40129-X ISBN-13: 978-0-470-40129-3 - John Wiley & Sons Short description This book provides a senior elective and graduate level textbook (homework solution manual available) and a practitioner's reference. It serves systems engineers, integrated product engineers, software engineers, industrial/manufacturing engineers, business management design people, and Intelligent Enterprises (IE) professionals. The text covers the basic principles of complex systems in such a way that students and practitioners can readily extend these principles to all kinds of systems through hands-on experimentation using an icon-based simulation tool. Applicable systems include societal systems and sociology, biological and ecological systems, economic systems, and others. From the contents Preface. 1. Introduction to Simulation-Based Systems Engineering. 1.1 Definition of Complex Systems. 1.2 Using Simulation to Understand Complex Systems. 1.3 Bringing Complex Systems into Being. 1.4 Summary. 1.5 Homework Problems. 2. Simulation Concepts and Building Blocks. 2.1 Statistical Aspects of Simulation. 2.2 OpEM Graphical Modeling Language. 2.3 How OpEM Parallel Process Simulations Work. 2.4 OpEMCSS Simulation of Context-Sensitive Systems. 2.5 An OpEM Example of Preemptive Scheduling. 2.6 Summary. 2.7 Homework. 2.8 References. 3. Systems Design and Model Development. 3.1 Inventory System. 3.2 Part Production System. 3.3 Seaport System. 3.4 Advanced Features of OpEMCSS. 3.5 Summary. 3.6 Homework. 3.7 References. 4. Markov Model Development. 4.1 Discrete-Time Markov Chains. 4.2 Continuous-Time Markov Processes. 4.3 Semi-Markov Flow Graphs. 4.4 System Design and Evaluation Using Markov Models. 4.5 Homework. 4.6 References. 5. Reliability Processes. 5.1 Definitions. 5.2 Reliability of Non-Maintained Module Groups. 5.3 Availability of Maintained Module Groups. 5.4 Dependence of System Performance on Reliability. 5.5 Summary. 5.6 Homework. 5.7 References. 6. Queuing Theory in Simulation-Based Systems Engineering. 6.1 Single-Queue, Single Server Process. 6.2 Single-Queue, Two-Server Process. 6.3 Comparison of Simulation, Markov Process, and Queuing Theory Models. 6.4 Homework. 6.5 Reference. 7. Rule-Based Learning and Adaptation. 7.1 Classifier Systems. 7.2 Induction of Decision Making Rules. 7.3 Supervisory Rule Learning. 7.4 Summary. 7.5 Conclusions. 7.6 References. 8. Agent Motion and Spatial Interactions. 8.1 Discrete Event Model of Continuous motion. 8.2 Agent Motion and Spatial Interaction Blocks. 8.3 World Model. 8.4 Sonar Array System. 8.5 Summary. 8.6 Reference. 9. Multi-Agent System of Systems (SOS). 9.1 Agents and Agent Interactions. 9.2 Elevator System. 9.3 Distributed, Vehicle Traffic Light Control System. 9.4 Communication Blocks for Multi-Agent Systems. 9.5 Summary. 9.6 References. Appendix A - OpEMCSS User's Manual. A.1 Minimum Requirements for Successful CSS Modeling Languages. A.2 Modeling Languages Survey. A.2.1 Petri Nets. A.2.2 IDEF0 Diagrams. A.2.3 ExtendSim Queuing Models. A.2.4 Modeling Languages Survey Summary. A.3 Operational Evaluation Modeling (OpEM) Historical Overview. A.4 OpEMCSS Familiarization Exercises. A.4.1 How to Set Up ExtendSim LT-RunTime. A.4.2 ExtendSim Environment Overview. A.4.3 Block Familiarization Exercises. A.5 Overview of Context-Sensitive Event Action Blocks. A.5.1 Message Event Action block. A.5.2 Context-Sensitive Event Action block. A.5.3 Event Action block. A.6 Summary. A.7 References. Appendix B Overview of OpEMCSS Library Blocks. B.1 Definition of OPEMCSS Block Categories. B.2 Description of OpEMCSS Blocks by Category. B.2.1 Category 1. B.2.2 Category 2. B.2.3 Category 3. B.2.4 Category 4. B.2.5 Category 5. B.2.6 Category 6. B.2.7 Category 7. B.2.8 Category 8. B.2.9 Category 9. B.3 Summary of OpEMCSS Block Categories. Appendix C - Programming OpEMCSS Special Blocks. C.1 Special Event Action Block Dialogs. C.2 Execute Event Action Procedure. C.3 Summary. abstracted from the link: http://www.wiley-vch.de/publish/en/books/ISBN978-0-470-40129-3/ [ Last edited by dongdong3881 on 2009-12-12 at 09:22 ] |
回复此楼» 猜你喜欢
【修正版】单环用磁约束低速电子实验方案(简化版)
已经有0人回复
-
桂林理工大学物理学专业招收调剂,还有三个名额!!!
已经有22人回复
-
物理学I论文润色/翻译怎么收费?
已经有230人回复
-
考博自荐
已经有4人回复
-
山东大学第二批博士研究生招生
已经有0人回复
-
中国科学院东莞材料科学与技术研究所-2026年博士招生-吴昊研究员-磁学与自旋电子学
已经有0人回复
-
《电磁学》教材推荐
已经有1人回复
-
【急招】合肥工大核聚变材料计算方向2026级工程博士生
已经有4人回复
-
大豆异黄酮分离
已经有0人回复
-
湖南大学材料学院急招2026年博士生,临时增加一名博士联培指标
已经有10人回复
-
天津理工大学晶体材料全国重点实验室刘红军教授课题组招收博士生1-2名
已经有0人回复
nono2009
超级版主 (文学泰斗)
-
专家经验: +21105 - 应助: 28684 (院士)
- 贵宾: 513.911
- 金币: 2555230
- 帖子: 1602255
- 在线: 65200.9小时
- 虫号: 827383
2楼2009-09-11 21:01:18
3楼2009-09-12 00:33:57
4楼2009-10-15 10:13:34
30