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静态和螺旋移动无线传感器网络中优化数据提取协议的研究

Abstract第2页
摘要第4-11页
1 Introduction第11-18页
    1.1 Introduction of Thesis第11-12页
    1.2 Motivation第12页
    1.3 Objective第12-13页
    1.4 Problem Statement第13页
    1.5 Scope第13-14页
    1.6 Proposed Research Work第14-15页
        1.6.1 Basic Assumption第14-15页
    1.7 Research Methodology第15-16页
    1.8 Research Contribution第16页
    1.9 Organization of Thesis第16-18页
2 Related Work第18-30页
    2.1 Wireless Sensor Networks第18页
    2.2 Sensor Node Architecture第18-19页
    2.3 Categories of Routing Protocols第19-21页
        2.3.1 Flat Routing Protocols第19-20页
        2.3.2 Location based Routing Protocols第20页
        2.3.3 Cluster base Routing Protocols第20-21页
            2.3.3.1 Dynamic Routing第21页
            2.3.3.2 Benefits of Clustering第21页
    2.4 WSNs Routing Protocol Measurement Metrics第21-22页
    2.5 Key issues in Routing Protocol第22-23页
    2.6 Classification of Routing Protocols第23-24页
        2.6.1 Homogeneous Networks第24页
        2.6.2 Heterogeneous Networks第24页
    2.7 Energy Efficient Routing Protocols第24页
    2.8 Literature Review第24-27页
    2.9 Comparison of Existing Static Sink Routing Protocols第27-30页
        2.9.1 Low Energy Adaptive Clustering Hierarchy (LEACH)第27页
        2.9.2 LEACH Centralized (LEACH-C)第27页
        2.9.3 Stable Election Protocol (SEP)第27-28页
        2.9.4 Enhanced SEP (E-SEP)第28页
        2.9.5 Distributed Energy Efficient Clustering (DEEC)第28页
        2.9.6 Developed DEEC (D-DEEC)第28页
        2.9.7 Enhanced DEEC (E-DEEC)第28页
        2.9.8 Energy Efficient Clustering Scheme (EECS)第28页
        2.9.9 Hybrid Energy-Efficient Distributed (HEED)第28-29页
        2.9.10 Characteristic Comparison第29-30页
3 Lifetime Maximization on Scalable Stable Election Protocol for Large Scale Traffic Engineering第30-40页
    3.1 Problem Definition and Network Topology第30-31页
        3.1.1 Problem Definition第30页
        3.1.2 Network Topology第30-31页
        3.1.3 Heterogeneous Network Model第31页
    3.2 Cluster-Head Selection Technique第31-34页
    3.3 Association of Member Nodes to CHs第34页
    3.4 Transmission of Data Packets to BS第34页
    3.5 Simulation Parameters第34-40页
        3.5.1 Simulations and Results第36-40页
4 Spiral Mobility Based on Optimized Clustering for Optimal Data Extraction in WSNs第40-57页
    4.1 System Models and Network Design第40-43页
        4.1.1 Energy Dissipation and Radio Model第40-41页
        4.1.2 Heterogeneous Network Model第41页
        4.1.3 Network Design第41页
        4.1.4 Spiral Mobility第41-42页
        4.1.5 Multiple Sinks第42-43页
    4.2 Proposed Model第43-46页
    4.3 Network Settling Phase第46-47页
    4.4 Data Transmission Phase第47-48页
    4.5 Experiments and Simulation Results第48-56页
        4.5.1 Simulation Parameters第48页
        4.5.2 Mobility vs. Static Sink第48-50页
        4.5.3 Spiral Mobility vs. Random and Grid Mobility第50-56页
    4.6 Performance Evaluation and Results Discussion第56-57页
5 Conclusion and Future Work第57-59页
    5.1 Conclusion第57-58页
    5.2 Future Work第58-59页
References第59-65页
Abstract of Innovation Points第65-66页
Publications in Master’s Study第66-67页
Acknowledgement第67-68页
About the Author第68-71页

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