The Design and Implementation of a Virtual Sensor Web Platfor Bad Weather Monitoring. Fan, H., Di, L., & Yu, G. In IGARSS 2008 - 2008 IEEE International Geoscience and Remote Sensing Symposium, volume 1, pages I–304–I–307, July, 2008.
doi  abstract   bibtex   
This paper designed and implemented a web-based interoperation architecture for integrating diverse sensor data source for weather application using a service-oriented architecture (SOA). In this architecture, the OGC Data Interoperability Technology and Protocols are applied to provide uniform standard access interfaces. Sensor data will be served through standard OGC WCS (Web Coverage Services), satellite-derived winds, model data and in-situ storm reports will be served by Standard WFS (Web Feature Service). The prototype detection and tracing application are decomposed as several independent logical units (Services) and are published as standard WPS (Web Processing Service). By defining WDSL description for these WPS, they can be easily chained and executed through available BEPL Engines. A unified OGC-Compliant Data Access Component is developed to provide standard access to various sources. This paper presents a promising architecture for web based interoperation system.
@inproceedings{fan_design_2008,
	title = {The {Design} and {Implementation} of a {Virtual} {Sensor} {Web} {Platfor} {Bad} {Weather} {Monitoring}},
	volume = {1},
	doi = {10.1109/IGARSS.2008.4778854},
	abstract = {This paper designed and implemented a web-based interoperation architecture for integrating diverse sensor data source for weather application using a service-oriented architecture (SOA). In this architecture, the OGC Data Interoperability Technology and Protocols are applied to provide uniform standard access interfaces. Sensor data will be served through standard OGC WCS (Web Coverage Services), satellite-derived winds, model data and in-situ storm reports will be served by Standard WFS (Web Feature Service). The prototype detection and tracing application are decomposed as several independent logical units (Services) and are published as standard WPS (Web Processing Service). By defining WDSL description for these WPS, they can be easily chained and executed through available BEPL Engines. A unified OGC-Compliant Data Access Component is developed to provide standard access to various sources. This paper presents a promising architecture for web based interoperation system.},
	booktitle = {{IGARSS} 2008 - 2008 {IEEE} {International} {Geoscience} and {Remote} {Sensing} {Symposium}},
	author = {Fan, H. and Di, L. and Yu, G.},
	month = jul,
	year = {2008},
	keywords = {Access protocols, Application software, BEPL Engines, computer interfaces, Data engineering, geographic information systems, geophysics computing, in-situ storm reports, Information science, OGC Data Interoperability Technology and Protocols, OGC Standards, OGC WCS, prototype detection, Publishing, Remote monitoring, satellite-derived winds, Sensor systems, Service oriented architecture, Service Oriented Architecture, service-oriented architecture, SOA, Standard WFS, Standards development, storms, Storms, Storms Detection, tracing application, unified OGC-Compliant Data Access Component, virtual sensor web platform, Virtual Sensor Web(VSW), WDSL description, weather forecasting, weather monitoring, Web Coverage Services, Web Feature Service, Web Processing Service, web-based interoperation architecture, wind, WPS},
	pages = {I--304--I--307},
	file = {IEEE Xplore Abstract Record:/Volumes/mini-disk1/Google Drive/_lib/zotero/storage/5DKWNZDF/4778854.html:text/html;IEEE Xplore Full Text PDF:/Volumes/mini-disk1/Google Drive/_lib/zotero/storage/MBCNVQ8G/Fan et al. - 2008 - The Design and Implementation of a Virtual Sensor .pdf:application/pdf}
}
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