The integration, analysis and visualization of sensor data from dispersed wireless sensor network systems using the SWE framework

Wireless Sensor Networks (WSNs) have been used in numerous applications to remotely gather real-time data on important environmental parameters. There are several projects where WSNs are deployed in different locations and operate independently. Each deployment has its own models, encodings, and services for sensor data, and are integrated with different types of visualization/analysis tools based on in-dividual project requirements. This makes it difucult to reuse these services for other WSN applications. A user/system is impeded by having to learn the models, encodings, and ser-vices of each system, and also must integrate/interoperate data from different data sources. Sensor Web Enablement (SWE) provides a set of standards (web service interfaces and data encoding/model specifications) to make sensor data publicly available on the web. This paper describes how the SWE framework can be extended to integrate disparate WSN sys-tems and to support standardized access to sensor data. The proposed system also introduces a web-based data visualiza-tion and statistical analysis service for data stored in the Sen-sor Observation Service (SOS) by integrating open source technologies. A performance analysis is presented to show that the additional features have minimal impact on the sys-tem. Also some lessons learned through implementing SWE are discussed.

[1]  Davide Brunelli,et al.  Wireless Sensor Networks , 2012, Lecture Notes in Computer Science.

[2]  K.B. Lee,et al.  Open standards for homeland security sensor networks , 2005, IEEE Instrumentation & Measurement Magazine.

[3]  Mark R. Schoeberl,et al.  A web of sensors: enabling the Earth science vision , 2002, IEEE International Geoscience and Remote Sensing Symposium.

[4]  Amit P. Sheth,et al.  SemSOS: Semantic sensor Observation Service , 2009, 2009 International Symposium on Collaborative Technologies and Systems.

[5]  Nengcheng Chen,et al.  An Observation Capability Metadata Model for EO Sensor Discovery in Sensor Web Enablement Environments , 2014, Remote. Sens..

[6]  John Davidson,et al.  Ogc® sensor web enablement:overview and high level achhitecture. , 2007, 2007 IEEE Autotestcon.

[7]  Kevin A. Delin,et al.  Sensor web: a new instrument concept , 2001, SPIE OPTO.

[8]  S. Cox,et al.  Citizen-based sensing of crisis events: sensor web enablement for volunteered geographic information , 2013 .

[9]  Kevin A. Delin,et al.  Sensor Webs in the Wild , 2005 .

[10]  Peter Taylor,et al.  Hydrological Sensor Web for the South Esk Catchment in the Tasmanian state of Australia , 2008, 2008 IEEE Fourth International Conference on eScience.

[11]  Gavin E. Churcher,et al.  Experiences applying Sensor Web Enablement to a practical telecare application , 2008, 2008 3rd International Symposium on Wireless Pervasive Computing.

[12]  Jarrod Trevathan,et al.  The evolution of the SEMAT sensor network management system , 2011, 2011 Seventh International Conference on Intelligent Sensors, Sensor Networks and Information Processing.

[13]  Trina S. Myers,et al.  SEMAT — The Next Generation of Inexpensive Marine Environmental Monitoring and Measurement Systems , 2012, Sensors.

[14]  Jemal H. Abawajy,et al.  Sensor Grid Middleware Metamodeling and Analysis , 2014, Int. J. Distributed Sens. Networks.

[15]  Srinivasan Seshan,et al.  IrisNet: An Architecture for a Worldwide Sensor Web , 2003, IEEE Pervasive Comput..

[16]  Gavin E. Churcher,et al.  Applying and extending sensor web enablement to a telecare sensor network architecture , 2009, COMSWARE '09.

[17]  Farhad Samadzadegan,et al.  AN INTEROPERABLE ARCHITECTURE FOR AIR POLLUTION EARLY WARNING SYSTEM BASED ON SENSOR WEB , 2013 .

[18]  Thomas J. Lampoltshammer,et al.  Bridging SCADA systems and GI systems , 2014, 2014 IEEE World Forum on Internet of Things (WF-IoT).