Note that a Sensor Web pod is merely a physical platform for a sensor and thus can be orbital or terrestrial, fixed or mobile and might even have real time accessibility via the Internet . Pod-to-pod communication is both omni-directional and bi-directional where each pod sends out collected data to every other pod in the network. As a result, on-the-fly data fusion, such as false positive identification and plume tracking, can occur within the Sensor Web itself and the system subsequently reacts as a coordinated, collective whole to the incoming data stream. For example, instead of having uncoordinated smoke detectors, a Sensor Web can react as a single, spatially-dispersed, fire locator.
Today, there have been a variety of Sensor Web field deployments with systems spanning as many as 6 miles and running continuously for over 3 years. Sensor Webs have been field tested in many environments including the gardens at the Huntington Library for botanical conditions including soil moisture and temperature, Antarctica to monitor microclimate conditions for extreme life detection, and, in cooperation with the University Of Arizona , in the Central Avra Valley Storage and Recovery Project for Flooding detection. Sensor Webs have also proved valuable in urban Search And Rescue , as well as infrastructure protection.
The basic concept of a network of sensors is not new. The novelty of the Sensor Web architecture lies in the ability of the individual pieces to act and coordinate as a whole. This immediately allows the system to be synchronous throughout, unlike many other networks. In addition, the individual pods of a Sensor Web are all equal with one another and a Sensor Web architecture does not require special gateways or routing to have each of the individual pieces communicate with one another or an end user. By definition, a Sensor Web is an autonomous, stand-alone, sensing entity that does not require the presence of the World Wide Web to function.
The term "Sensor Web" is sometimes used to refer to sensors connected to the Internet (or "World Wide Web"). Such terms are occasionally used in conjunction with projects of the Open Geospatial Consortium (OGC) or SensorNet . In this case, the network architecture requires the Internet to link together the individual sensing elements. The OGC architecture is very different than that of a true Sensor Web system and requires schemes to bring together vastly different datasets, in the same way that TCP/IP is used to tie together vastly different pieces of hardware and computing platforms. Note also that a single Sensor Web may be an individual sensing element inputing into an OGC-type network.
- SensorWare Systems, Inc. — A company spun-out of the NASA Sensor Webs Project and providing Sensor Web technology especially for agricultural, life safety, and remediation needs. Live, real-time streaming data from deployed systems may also be found on this site.
- Sensor Web Alliance — An organization that is developing a collaborative research platform called the Sensor Web Alliance (SWA). The aim is to pool resources in the SWA, coordinate research and allow participating organisations to share IP, which will spread risk and lower the cost of entry.
- SenseWeb Project — A Microsoft Research project that lets users visualize and query real-time data using a geographical interface such as Windows Live Local and allows data owners to easily publish their live data using a web service interface.
- SensorWeb@GeoICT Lab, York University — An university research lab that is developing a GIS infrastructure for the Sensor Web and its applications. Several Sensor Web applications have been developed and deployed for environmental and agricultural applications. Project information, publications, and demo videos can be found on this site.
- 52°North — An open partnership organization that interoperable web services and data encoding models, which constitute the technical building blocks of Spatial Data Infrastructures (SDIs).
- OGC SWE — Since 2002, the Open Geospatial Consortium (OGC) has had a focused Sensor Web Enablement (SWE) activity. From the OGC perspective, a Sensor Web refers to web accessible sensor networks and archived sensor data that can be discovered and accessed using standard protocols and application program interfaces (APIs). In essence the OGC represents a "world wide web" of sensors.
- Open SensorWeb Architecture Project - The project focuses on the development of service-oriented middleware for SensorWeb that integrates sensor networks and distributed computing environements such as computational Grids.
- SensorWeb Research Lab - A multidisciplinary team involving computer scientists (Washington State University), space scientists (NASA Jet Propulsion Laboratory (JPL)), and earth scientists (USGS Cascade Volcano Observatory (CVO)), is developing a prototype dynamic and scalable hazard monitoring sensor-web and apply it to volcano monitoring. The combined Optimized Autonomous Space - In-situ Sensor-web (OASIS) will have two-way communication capability between ground and space assets, use both space and ground data for optimal allocation of limited power and bandwidth resources on the ground, and use smart management of competing demands for limited space assets. A smart ground sensor network will be deployed in the crater of Mount St. Helens by mid-2009.
- ''Environmental Studies with the Sensor Web: Principles and Practice,'' Kevin A. Delin, Shannon P. Jackson, David W. Johnson, Scott C. Burleigh, Richard R.Woodrow, J. Michael McAuley, James M. Dohm, Felipe Ip, Ty P.A. Ferré, Dale F. Rucker, Victor R. Baker 2005, 5, 103-117 {Link without Title} Open Access publication.
- ''OGC Sensor Web Enablement: Overview and High Level Architecture,'' Botts, Percivall, Reed, and Davidson {Link without Title} OGC White Paper, July 2006 Open Access publication.
- ''Open Sensor Web Architecture: Core Services,''Xingchen Chu, Tom Kobialka, Bohdan Durnota, and Rajkumar Buyya, Proceedings of the 4th International Conference on Intelligent Sensing and Information Processing (ICISIP 2006,IEEE Press, Piscataway, New Jersey, USA, ISBN 1-4244-0611-0, 98-103pp), Dec. 15-18, 2006, Bangalore, India. {Link without Title} Open Access publication.
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