声明
Abstract
摘要
Table of Contents
1 General Introduction
1.1 Introduction
1.2 Research Background and Significance
1.3 Contributions
1.4 Dissertation Organization
2 Energy Optimization and performance Analysis of Conven-tional and SDN-based Traffic Engineering for WSNs:An Overview
2.1 Introduction
2.2 Energy Efficient Performance Requirements of Wireless Sensor Networks(WSNs)
2.2.1 Source of Energy Wastage
2.3 Architectures of Wireless Sensor Networks
2.4 Hierarchal Energy Efficient Routing Protocols of Wireless Sensor Networks
2.4.1 Distributed Clustering Energy Efficient Routing Protocols of Wireless Sensor Networks
2.4.2 Centralized Clustering Energy Efficient Routing Protocols of Wireless Sensor Networks
2.5 Design and Management of SDN-based WSNs Architectures
2.6 Conclusion
3 Adaptive Energy-Efficient Clustering Path Planning Routing Protocols for Heterogeneous Wireless Sensor Networks
3.1 Introduction
3.2 Related Work
3.3 Heterogeneous Network Model
3.4 Proposed Model of THCEEC and ACEEC
3.4.1 Network Settling Phase(NSP)of THCEEC
3.4.2 Network Settling Phase(NSP)of ACEEC
3.4.3 Network Communication Phase(NCP)of THCEEC and ACEEC
3.5 Performance Evaluation of THCEEC and ACEEC
3.5.1 Performance Comparison of CEEC Under First Scenario
3.5.2 Performance Comparison of CEEC Under Second Scenario
3.5.3 Performance Evaluation of THCEEC Under First Scenario
3.5.4 Performance Evaluation of THCEEC Under Second Scenario
3.5.5 Performance Evaluation of ACEEC Under First Scenario
3.5.6 Performance Evaluation of ACEEC Under Second Scenario
3.6 Conclusion
4 Multihopping Multilevel Clustering Heterogeneity-Sensitive Optimized Routing Protocol for Wireless Sensor Networks
4.1 Introduction
4.2 Related Work and Motivation
4.3 System Network Design Problem Statement
4.3.1 System Design
4.3.2 Energy Model for Radio Characteristics
4.4 Proposal of Multi-Hoping Multi Level Clustering Energy Efficient Protocol
4.5 Simulation Results and Discussion
4.6 Basic difference between MHMLC and previous proposed models
4.7 Conclusion and future work
5 SACFIR:SDN-Based Application-Aware Centralized Adap-tive Flow Iterative Reconfiguring Routing Protocol for WSNs
5.1 Introduction
5.2 Related Work and motivation
5.3 Heterogeneous Network Model of Proposed Models
5.3.1 Network Topology for Proposed Protocols
5.3.2 Iterative Solver with Min-Cost Optimization
5.4 Proposed Model of SACFIR and SAMCFIR
5.4.1 Network Topology Management Phase(NTMP)of SACFIR and SAMCFIR
5.4.2 Network Settling Phase(NSP)of SACFIR and SAMCFIR
5.4.3 Network Forwarding Phase(NFP)of SACFIR and SAMCFIR
5.5 Simulation Results and Discussion
5.6 Conclusion
6 Conclusion and Future Work
6.1 Conclusion
6.2 Future Work
Abstract of Innovation Points
References
Publications and Research Achievements During Ph.D.Period
Acknowledgement
About the Author