Topology Control in Wireless Ad Hoc and Sensor Networks (無線自組織網路與感測器網路中的拓撲控制)
Paolo Santi
- 出版商: Wiley
- 出版日期: 2005-08-01
- 定價: $1,980
- 售價: 5.0 折 $990
- 語言: 英文
- 頁數: 280
- 裝訂: Hardcover
- ISBN: 0470094532
- ISBN-13: 9780470094532
-
相關分類:
感測器 Sensor
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商品描述
Description:
Topology control is fundamental to solving scalability and capacity problems in large-scale wireless ad hoc and sensor networks.
Forthcoming wireless multi-hop networks such as ad hoc and sensor networks will allow network nodes to control the communication topology by choosing their transmitting ranges. Briefly, topology control (TC) is the art of co-ordinating nodes’ decisions regarding their transmitting ranges, to generate a network with the desired features. Building an optimized network topology helps surpass the prevalent scalability and capacity problems.
Topology Control in Wireless Ad Hoc and Sensor Networks makes the case for topology control and provides an exhaustive coverage of TC techniques in wireless ad hoc and sensor networks, considering both stationary networks, to which most of the existing solutions are tailored, and mobile networks. The author introduces a new taxonomy of topology control and gives a full explication of the applications and challenges of this important topic.
Topology Control in Wireless Ad Hoc and Sensor Networks:
- Defines topology control and explains its necessity, considering both stationary and mobile networks.
- Describes the most representative TC protocols and their performance.
- Covers the critical transmitting range for stationary and mobile networks, topology optimization problems such as energy efficiency, and distributed topology control.
- Discusses implementation and ‘open issues’, including realistic models and the effect of multi-hop data traffic.
- Presents a case study on routing protocol design, to demonstrate how TC can ease the design of cooperative routing protocols.
This invaluable text will provide graduate students in Computer Science, Electrical and Computer Engineering, Applied Mathematics and Physics, researchers in the field of ad hoc networking, and professionals in wireless telecoms as well as networking system developers with a single reference resource on topology control.
Table of Contents:
About the Author.Preface.
Acknowledgments.
List of Abbreviations.
List of Figures.
List of Tables.
I: Introduction.
1. Ad Hoc and Sensor Networks.
1.1 The Future ofWireless Communication.
1.2 Challenges.
2. Modeling Ad Hoc Networks.
2.1 The Wireless Channel.
2.2 The Communication Graph.
2.3 Modeling Energy Consumption.
2.4 Mobility Models.
2.5 Asymptotic Notation.
3. Topology Control.
3.1 Motivations for Topology Control.
3.2 A Definition of Topology Control.
3.3 A Taxonomy of Topology Control.
3.4 Topology Control in the Protocol Stack.
II: The Critical Transmitting Range.
4. The CTR for Connectivity: Stationary Networks.
4.1 The CTR in Dense Networks.
4.2 The CTR in Sparse Networks.
4.3 The CTR with Different Deployment Region and Node Distribution.
4.4 Irregular Radio Coverage Area.
5. The CTR for Connectivity: Mobile Networks.
5.1 The CTR in RWPMobile Networks.
5.2 The CTR with Bounded, Obstacle-free Mobility.
6. Other Characterizations of the CTR 63
6.1 The CTR for k-connectivity.
6.2 The CTR for Connectivity with Bernoulli Nodes.
6.3 The Critical Coverage Range.
III: Topology Optimization Problems.
7. The Range Assignment Problem.
7.1 Problem Definition.
7.2 The RA Problem in One-dimensional Networks.
7.3 The RA Problem in Two- and Three-dimensional Networks.
7.4 The Symmetric Versions of the Problem.
7.5 The Energy Cost of the Optimal Range Assignment.
8. Energy-efficient Communication Topologies.
8.1 Energy-efficient Unicast.
8.2 Energy-efficient Broadcast.
IV: Distributed Topology Control.
9. Distributed Topology Control: Design Guidelines.
9.1 Ideal Features of a Topology Control Protocol.
9.2 The Quality of Information.
9.3 Logical and Physical Node Degrees.
10. Location-based Topology Control.
10.1 The R&M Protocol.
10.2 The LMST Protocol.
11. Direction-based Topology Control.
11.1 The CBTC Protocol.
11.2 The DistRNG Protocol.
12. Neighbor-based Topology Control.
12.1 The Number of Neighbors for Connectivity.
12.2 The KNeigh Protocol.
12.3 The XTC Protocol.
13. Dealing with Node Mobility.
13.1 TC Design Guidelines with Mobility.
13.2 TC in Mobile Networks: an Example.
13.3 The Effect of Mobility on the CNN.
13.4 Distributed TC in Mobile Networks: Existing Solutions.
V: Toward an Implementation of Topology Control.
14. Level-based Topology Control.
14.1 Level-based TC:Motivations.
14.2 The COMPOW Protocol.
14.3 The CLUSTERPOW Protocol.
14.4 The KNeighLev Protocol.
14.5 Comparing CLUSTERPOW and KneighLev.
15. Open Issues.
15.1 TC for Interference.
15.2 More-realistic Models.
15.3 Mobility and Topology Control.
15.4 Considering MultiHop Data Traffic.
15.5 Implementation of TC.
VI: Case Study and Appendices.
16. Case Study: TC and Cooperative Routing in Ad hoc Networks.
16.1 Cooperation in Ad hoc Networks.
16.2 Reference Application Scenario.
16.3 Modeling Routing as a Game.
16.4 A Practical Interpretation of Truthfulness.
16.5 Truthful Routing without TC.
16.6 Truthful Routing with TC.
16.7 Conclusion.
A: Elements of Graph Theory.
A.1 Basic Definitions.
A.2 Proximity Graphs.
B: Elements of Applied Probability.
Bibliography.
Index.
商品描述(中文翻譯)
描述:
拓撲控制是解決大規模無線自組網和感測器網絡中的可擴展性和容量問題的基礎。即將到來的無線多跳網絡,如自組網和感測器網絡,將允許網絡節點通過選擇傳輸範圍來控制通信拓撲。簡而言之,拓撲控制是協調節點關於其傳輸範圍的決策,以生成具有所需特性的網絡。構建優化的網絡拓撲有助於克服普遍存在的可擴展性和容量問題。《無線自組網和感測器網絡中的拓撲控制》為拓撲控制提供了充分的覆蓋,並考慮了無線自組網和感測器網絡中的TC技術,包括大多數現有解決方案所適用的固定網絡和移動網絡。作者引入了一個新的拓撲控制分類法,並對這一重要主題的應用和挑戰進行了全面的解釋。
《無線自組網和感測器網絡中的拓撲控制》包括以下內容:
- 定義拓撲控制並解釋其必要性,包括固定和移動網絡。
- 描述最具代表性的拓撲控制協議及其性能。
- 覆蓋固定和移動網絡的關鍵傳輸範圍,如能源效率和分佈式拓撲控制等拓撲優化問題。
- 討論實施和“開放問題”,包括現實模型和多跳數據流量的影響。
- 提供一個關於路由協議設計的案例研究,以展示拓撲控制如何簡化合作式路由協議的設計。
這本寶貴的書籍將為計算機科學、電氣和計算機工程、應用數學和物理學的研究生、自組網絡領域的研究人員以及無線電信專業人士和網絡系統開發人員提供一個關於拓撲控制的單一參考資源。
目錄:
- 關於作者
- 前言
- 致謝
- 縮寫列表
- 圖表列表
- 表格列表
- 第一章:介紹
- 第二章:自組網和感測器網絡
- 第三章:建模自組網絡
- 第四章:拓撲控制協議
- 第五章:固定和移動網絡的傳輸範圍
- 第六章:拓撲優化問題
- 第七章:實施和開放問題
- 第八章:路由協議設計案例研究