图书信息书 名: 复杂网络控制技术
作者:迈恩
出版社:高等教育出版社
出版时间: 2009年04月
ISBN: 9787040254815
开本: 16开
定价: 66元
内容简介《复杂网络控制技术》着眼于复杂网络系统中的共性问题,综合了作者多年来在该方向深入、系统的研究成果,给出了建立网络模型所需要的工具和哲学思想,详细具体地把握了其动力学本质,同时简明地揭示了有效控制的解决方案及其分析。《复杂网络控制技术》内容分为三个部分:第一部分为建模与控制,第二部分为负荷调度,第三部分为稳定性及性能分析。
作者简介Sean Meyn,伊利诺斯大学电子与计算机工程系教授,IEEE Fellow。担任系统与控制、应用概率等领域多个期刊的编委。与他人合著的图书Markov Chains and Stochastic Stability获1994年ORSA/TIMS最佳著作奖。在MIT4 UTRC等世界各地多个大学担任客座教授。他的研究兴趣包括随机过程、最优化、复杂网络以及信息论等。
图书目录List of Illustrations
Preface
Dedication
1 Introduction
1.1 Networks in practice
1.2 Mathematical models
1.3 What do you need to know to read this book?
1.4 Notes
Part I: Modeling and Control
2 Examples
2.1 Modeling the single server queue
2.2 Klimov model
2.3 Capacity and queueing in communication systems
2.4 Multiple-access communication
2.5 Processor sharing model
2.6 Inventory model
2.7 Power transmission network
2.8 Optimization in a simple re-entrant line
2.9 Contention for resources and instability
2.10 Routing model
2.11 Braess' paradox
2.12 Notes
3 The Single Server Queue
3.1 Representations
3.2 Approximations
3.3 Stability
3.4 Invariance equations
3.5 Big queues
3.6 Model selection
3.7 Notes
Exercises
4 Scheduling
4.1 Controlled random-walk model
4.2 Fluid model
4.3 Control techniques for the fluid model
4.4 Comparing fluid and stochastic models
4.5 Structure of optimal policies
4.6 Safety-stocks
4.7 Discrete review
4.8 MaxWeight and MinDrift
4.9 Perturbed value function
4.10 Notes
Exercises
Part II: Workload
5 Workload and Scheduling
5.1 Single server queue
5.2 Workload for the CRW scheduling model
5.3 Relaxations for the fluid model
5.4 Stochastic workload models
5.5 Pathwise optimality and workload
5.6 Hedging in networks
5.7 Notes
Exercises
6 Routing and Resource Pooling
6.1 Workload in general models
6.2 Resource pooling
6.3 Routing and workload
6.4 MaxWeight for routing and scheduling
6.5 Simultaneous resource possession
6.6 Workload relaxations
6.7 Relaxations and policy synthesis for stochastic models
6.8 Notes
Exercises
7 Demand
7.1 Network models
7.2 Transients
7.3 Workload relaxations
7.4 Hedging in a simple inventory model
7.5 Hedging in networks
7.6 Summary of steady-state control techniques
7.7 Notes
Exercises
Part III: Stability and Performance
8 Foster-Lyapunov Techniques
8.1 Lyapunov functions
8.2 Lyapunov functions for networks
8.3 Discrete review
8.4 MaxWeight
8.5 MaxWeight and the average-cost optimality equation
8.6 Linear programs for performance bounds
8.7 Brownian workload model
8.8 Notes
Exercises
9 Optimization
9.1 Reachability and decomposibility
9.2 Linear programming formulations
9.3 Multiobjective optimization
9.4 Optimality equations
9.5 Algorithms
9.6 Optimization in networks
9.7 One-dimensional inventory model
9.8 Hedging and workload
9.9 Notes
Exercises
10 ODE Methods
10.1 Examples
10.2 Mathematical preliminaries
10.3 Fluid limit model
10.4 Fluid-scale stability
10.5 Safety stocks and trajectory tracking
10.6 Fluid-scale asymptotic optimality
10.7 Brownian workload model
10.8 Notes
Exercises
11 Simulation and Learning
11.1 Deciding when to stop
11.2 Asymptotic theory for Markov models
11.3 The single-server queue
11.4 Control variates and shadow functions
11.5 Estimating a value function
11.6 Notes
Exercises
Appendix Markov Models
Bibliography
Index
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