Wireless sensor network: Difference between revisions

Overview

A wireless sensor network (WSN) is a network made of many small computers , which are employed in the processing of sensor data. These small computers are extremely basic in terms of their interfaces and their components. They usually only consist of sensors (including specific conditioning circuitry), a communication device (radio transceivers), and a power supply. Other possible inclusions are energy harvesting modules, secondary ASICs, and possibly secondary communication devices (RS232, USB...).

Uses for WSNs

The uses for WSNs are many and varied. They could be used in industry to monitor dangerous/hermitically-sealed environments. They could be deployed in wilderness areas, where they would remain for many years (monitoring some environmental variable) without the need to recharge/replace their power supplies. They could form a perimeter about a property and monitor the progression of intruders (using advanced application transfer techniques?). There are simply a near infinite amount of uses for WSNs!

Challenges

The main challenges in implementing a WSN is keeping the power usage as low as possible, and in designing a radio communication device that is small, with the lowest possible power, and the largest possible bit-rate and range. Not an easy task, as these two tasks are completely uncomplementary.

Visualization of Wireless Sensor Networks Data

The data gathered from wireless sensor networks is usually saved in the form of numerical data in a central base station. There are many programs that help viewing these large ammounts of data like TosGUI and MonSense. Additionally, the Open Geospatial Consortium (OGC) is specifying standards for interoperability interfaces and metadata encodings that enable real time integration of heterogeneous sensor webs into the Internet, allowing any individual to monitor or control Wireless Sensor Networks through a Web Browser.

WSN Research Centers

Examples of major academic centers for research in wireless sensor networks are CITRIS at Berkeley and CENS at UCLA, in the USA and the NCCR MICS at EPFL, in Switzerland.

Center for Embedded Networked Sensing (CENS)

The Center for Embedded Networked Systems (CENS) at the University of California, Los Angeles, directed by Deborah Estrin, is also a leading research center with $40 million in core funding from the National Science Foundation [1].

Center for Information Technology Research in the Interest of Society (CITRIS)

The Center for Information Technology Research (CITRIS) in the Interest of Society at the University of California, Berkeley, currently directed by S. Shankar Sastry, is a $300 million multicampus research center that includes research and development of wireless sensor networks, and has used them to study microclimate variations in individual redwood trees [2].

National Center of Competence in Research on Mobile Information and Communication Systems (NCCR MICS)

The NCCR MICS was launched in 2001 at EPFL. It is performing research in mobile information and communication systems, with a strong emphasis on wireless sensor networks and novel self-organizing networks and information systems.

See also

• TinyOS
• Smartdust
• Mesh networking
• Sensor network
• BTnodes
• Mobile ad-hoc network (MANETS)
• ZigBee

External link

• Overview of wireless sensor networks from the IEEE Computer Society.

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