| Abstract | 第5-6页 |
| 摘要 | 第7-16页 |
| 1 General Introduction | 第16-24页 |
| 1.1 Introduction | 第16-19页 |
| 1.2 Research Background and Significance | 第19-21页 |
| 1.3 Contributions | 第21-23页 |
| 1.4 Dissertation Organization | 第23-24页 |
| 2 Energy Optimization and performance Analysis of Conventional and SDN-based TrafficEngineering for WSNs: An Overview | 第24-47页 |
| 2.1 Introduction | 第24-25页 |
| 2.2 Energy Efficient Performance Requirements of Wireless Sensor Networks(WSNs) | 第25-26页 |
| 2.2.1 Source of Energy Wastage | 第26页 |
| 2.3 Architectures of Wireless Sensor Networks | 第26-30页 |
| 2.4 Hierarchal Energy Efficient Routing Protocols of Wireless Sensor Networks | 第30-38页 |
| 2.4.1 Distributed Clustering Energy Efficient Routing Protocols of Wireless Sen-sor Networks | 第31-35页 |
| 2.4.2 Centralized Clustering Energy Efficient Routing Protocols of Wireless Sen-sor Networks | 第35-38页 |
| 2.5 Design and Management of SDN-based WSNs Architectures | 第38-44页 |
| 2.6 Conclusion | 第44-47页 |
| 3 Adaptive Energy-Efficient Clustering Path Planning Routing Protocols for Heteroge-neous Wireless Sensor Networks | 第47-76页 |
| 3.1 Introduction | 第47-48页 |
| 3.2 Related Work | 第48-49页 |
| 3.3 Heterogeneous Network Model | 第49-54页 |
| 3.4 Proposed Model of THCEEC and ACEEC | 第54-61页 |
| 3.4.1 Network Settling Phase (NSP) of THCEEC | 第55-57页 |
| 3.4.2 Network Settling Phase (NSP) of ACEEC | 第57-59页 |
| 3.4.3 Network Communication Phase (NCP) of THCEEC and ACEEC | 第59-61页 |
| 3.4.3.1 First Order Radio Model Used in NCP | 第60-61页 |
| 3.5 Performance Evaluation of THCEEC and ACEEC | 第61-72页 |
| 3.5.1 Performance Comparison of CEEC Under First Scenario | 第63-65页 |
| 3.5.2 Performance Comparison of CEEC Under Second Scenario | 第65-68页 |
| 3.5.3 Performance Evaluation of THCEEC Under First Scenario | 第68-69页 |
| 3.5.4 Performance Evaluation of THCEEC Under Second Scenario | 第69-70页 |
| 3.5.5 Performance Evaluation of ACEEC Under First Scenario | 第70-71页 |
| 3.5.6 Performance Evaluation of ACEEC Under Second Scenario | 第71-72页 |
| 3.6 Conclusion | 第72-76页 |
| 4 Multihopping Multilevel Clustering Heterogeneity-Sensitive Optimized Routing Proto-col for Wireless Sensor Networks | 第76-100页 |
| 4.1 Introduction | 第76-77页 |
| 4.2 Related Work and Motivation | 第77-78页 |
| 4.3 System Network Design Problem Statement | 第78-81页 |
| 4.3.1 System Design | 第79-80页 |
| 4.3.2 Energy Model for Radio Characteristics | 第80-81页 |
| 4.4 Proposal of Multi-Hoping Multi Level Clustering Energy Efficient Protocol | 第81-88页 |
| 4.5 Simulation Results and Discussion | 第88-98页 |
| 4.6 Basic difference between MHMLC and previous proposed models | 第98页 |
| 4.7 Conclusion and future work | 第98-100页 |
| 5 SACFIR:SDN-Based Application-Aware Centralized Adaptive Flow Iterative Recon-figuring Routing Protocol for WSNs | 第100-127页 |
| 5.1 Introduction | 第100-102页 |
| 5.2 Related Work and motivation | 第102-104页 |
| 5.3 Heterogeneous Network Model of Proposed Models | 第104-109页 |
| 5.3.0 SDN-enabled Iteratively Reconfigurable WSNs (SDN-IRWSNs) ofProposed Models | 第105页 |
| 5.3.1 Network Topology for Proposed Protocols | 第105-107页 |
| 5.3.2 Iterative Solver with Min-Cost Optimization | 第107-109页 |
| 5.4 Proposed Model of SACFIR and SAMCFIR | 第109-118页 |
| 5.4.1 Network Topology Management Phase (NTMP) of SACFIR and SAMCFIR | 第110页 |
| 5.4.2 Network Settling Phase (NSP) of SACFIR and SAMCFIR | 第110-114页 |
| 5.4.3 Network Forwarding Phase (NFP) of SACFIR and SAMCFIR | 第114-118页 |
| 5.4.3.1 Optimization in Multi-hoping Communication | 第116-118页 |
| 5.5 Simulation Results and Discussion | 第118-126页 |
| 5.6 Conclusion | 第126-127页 |
| 6 Conclusion and Future Work | 第127-130页 |
| 6.1 Conclusion | 第127-129页 |
| 6.2 Future Work | 第129-130页 |
| Abstract of Innovation Points | 第130-132页 |
| References | 第132-142页 |
| Publications and Research Achievements During Ph.D. Period | 第142-143页 |
| Acknowledgement | 第143-144页 |
| About the Author | 第144-146页 |
