1. Survey on the Characterization and Classification of Wireless Sensor Network Application [1] CS 2310 Software Engineering Xiaoyu Liang

2. Outlines  Introduction  The characterization parameters  Taxonomy  Roadmap and Future Trend  Conclusion  References

3. Introduction  Wireless Sensor Network (WSN)  Consist of individual nodes (Sensors)  Interact with their environment  Have to collaborate to fulfill their tasks  Use wireless communication to enable this collaboration  WSN Applications  The task designed for the sensor network  Based on nodes/sensors  Combine computation and communication abilities.

6. Categories Service Communicati on & Traffic Service Components Network Node Operation Environment The characterization parameters

7. Categories Service Delivery requirements Real-Time (RT) Non-Real-Time (NRT) Directionality Unidirectional (Uni) Bidirectional (Bid) Communication symmetry Symmetric (Sym) Asymmetric (Asym) End-to-end behavior End-to-end Non-end-to-end Interactivity Synchronous Asynchronous Delay tolerance Criticality Mission-critical Non-mission-critical Delivery requirements Real-Time (RT) Non-Real-Time (NRT) Directionality Unidirectional (Uni) Bidirectional (Bid) Communication symmetry Symmetric (Sym) Asymmetric (Asym) End-to-end behavior End-to-end Non-end-to-end Interactivity Synchronous Asynchronous Delay tolerance Criticality Mission-critical Non-mission-critical

8. Categories Service Communicati on & Traffic QoS Perspectives: Individual QoS Collective QoS Data Delivery Models: Event-Driven Query- or Demand-Driven Continuous Based Time-Driven Bit Rate Latency/Delay Synchronization Class of Service Best-effort delivery (no QoS) Real-time delivery of time- based information Modulation Communication Detection QoS Perspectives: Individual QoS Collective QoS Data Delivery Models: Event-Driven Query- or Demand-Driven Continuous Based Time-Driven Bit Rate Latency/Delay Synchronization Class of Service Best-effort delivery (no QoS) Real-time delivery of time- based information Modulation Communication Detection The characterization parameters

9. Categories Service Communicati on & Traffic Service Components Type of Traffic Packet Delivery Failure Ratio Data Acquisition & Dissemination Event-based Demand-based Continuous-based Time-based Type of Traffic Packet Delivery Failure Ratio Data Acquisition & Dissemination Event-based Demand-based Continuous-based Time-based The characterization parameters

10. Categories Service Communicati on & Traffic Service Components Network Lifetime Scalability Density Sensing Range Self-organization Security Addressing Programmability Maintainability Homogeneity Mobility Support Lifetime Scalability Density Sensing Range Self-organization Security Addressing Programmability Maintainability Homogeneity Mobility Support The characterization parameters

11. Categories Service Communicati on & Traffic Service Components Network Node Microprocessor Radio Transceiver Overall Energy Consumption Sampling Rate Type of Function Sensor node Sink node Sensor and actuator node Anchor node Cluster head Gateway node Communication Range Power Supply Battery Harvesting device Local supply Microprocessor Radio Transceiver Overall Energy Consumption Sampling Rate Type of Function Sensor node Sink node Sensor and actuator node Anchor node Cluster head Gateway node Communication Range Power Supply Battery Harvesting device Local supply The characterization parameters

12. Categories Service Communicati on & Traffic Service Components Network Node Operation Environment Sensor Network Scenarios Single hop versus multi-hop Multiple hop sinks and sources mobility, scenario Framework Public: Urban, Road, Rural, Commercial Private: Emergency dedicated Deployment Scenarios Offices, Industry, Home, Military, Civil, Metropolitan. Sensor Network Scenarios Single hop versus multi-hop Multiple hop sinks and sources mobility, scenario Framework Public: Urban, Road, Rural, Commercial Private: Emergency dedicated Deployment Scenarios Offices, Industry, Home, Military, Civil, Metropolitan. The characterization parameters

17. Road Map and Future Trends

18. Conclusions  A holistic overview of the characterization parameters.  Help designers or researchers to have a complete insight about the possible application requirements or possible outcomes from a specific WSN application area.  Proposed classifications  Rather than the detailed classification from WSN applications, it provides a tool to understand mandatory requirements for WSN application area.

19. Other Surveys  Concerning the hardware aspects on different WSNs sensor nodes [2].  A classification organized according to the problems dealt by the MAC (Medium Access Control) protocols [3].  Survey addresses the evolution of WSN MAC protocols [4].  Routing protocols [5].

20. References 1.Luis M. Borges, et al., “ Survey on the Characterization and Classification of Wireless Sensor Network Applications ”, IEEE Communication Surveys & Tutorials, Vol. 16, No. 4, 2014. 2.M. Hempstead, et al., “ Survey of Hardware Systems for Wireless Sensor Networks ”, J. Low Power Electron., Vol.4, No.1, 2008. 3.A. Bachir, et al., “ MAC Essentials for Wireless Sensor Networks ”, IEEE Commun. Surveys Tuts., Vol. 12, No.2, 2010. 4.P. Huang, et al., “ The Evolution of MAC Protocols in Wireless Sensor Networks: A Survey ”, IEEE Commun. Surveys Tuts., Vol15, No.1, 2013. 5.S. Singh, et al., “ Routing Protocols in Wireless Sensor Networks – A Survey ”, Int. J. Comput. Sci. Eng. Survey, Vol. 1, No.2, 2010.