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OASiS: A Service-Oriented Middleware for Pervasive Ambient-Aware Sensor NetworksIsaac Amundson, Manish Kushwaha, Xenofon Koutsoukos, Sandeep Neema, Janos Sztipanovits
Citation
Isaac Amundson, Manish Kushwaha, Xenofon Koutsoukos, Sandeep Neema, Janos Sztipanovits. "OASiS: A Service-Oriented Middleware for Pervasive Ambient-Aware Sensor Networks". Pervasive and Mobile Computing Journal on Middleware for Pervasive Computing, October 2006; (Submitted October, 2006).
Abstract
Heterogeneous sensor networks consisting of networked devices embedded into the physical world have a significant role in pervasive computing systems. Such sensor networks may contain wireless sensor networks that are ensembles of small, smart, and cheap sensing and computing devices that permeate the environment, as well as high-bandwidth rich sensors such as satellite imaging systems, meteorological stations, air quality stations, and security cameras. Emergency response, homeland security, and many other applications have a very real need to interconnect such diverse networks and access information in real-time. While Web service standards provide well-developed mechanisms for resource-intensive computing nodes, linking such mechanisms with wireless sensor networks is very challenging because of limited resources, volatile communication links, and often node mobility. This paper presents a service-oriented programming model and middleware for ad-hoc wireless sensor networks which permits discovery and access of Web services. Sensor network applications are realized as graphs of modular and autonomous services with well-defined interfaces that allow them to be published, discovered, and invoked over the network, providing a convenient mechanism for integrating services from heterogeneous sensor systems. Our approach provides dynamic discovery, composition, and binding of services based on an efficient localized constraint satisfaction algorithm that can be used for developing ambient-aware applications that adapt to changes in the environment. A tracking application that employs many inexpensive sensor nodes, as well as a Web service, is used to illustrate the approach. Our results demonstrate the feasibility of ambient-aware applications that interconnect wireless sensor networks and Web services. Electronic downloads
- HTML
Isaac Amundson, Manish Kushwaha, Xenofon Koutsoukos, Sandeep
Neema, Janos Sztipanovits. <a
href="http://chess.eecs.berkeley.edu/pubs/282.html"
>OASiS: A Service-Oriented Middleware for Pervasive
Ambient-Aware Sensor Networks</a>, <i>Pervasive
and Mobile Computing Journal on Middleware for Pervasive
Computing</i>, October 2006; (Submitted October, 2006).
- Plain text
Isaac Amundson, Manish Kushwaha, Xenofon Koutsoukos, Sandeep
Neema, Janos Sztipanovits. "OASiS: A Service-Oriented
Middleware for Pervasive Ambient-Aware Sensor
Networks". <i>Pervasive and Mobile Computing
Journal on Middleware for Pervasive Computing</i>,
October 2006; (Submitted October, 2006).
- BibTeX
@article{AmundsonKushwahaKoutsoukosNeemaSztipanovits06_OASiSServiceOrientedMiddlewareForPervasiveAmbientAware,
author = {Isaac Amundson and Manish Kushwaha and Xenofon
Koutsoukos and Sandeep Neema and Janos Sztipanovits},
title = {OASiS: A Service-Oriented Middleware for Pervasive
Ambient-Aware Sensor Networks},
journal = {Pervasive and Mobile Computing Journal on
Middleware for Pervasive Computing},
month = {October},
year = {2006},
note = {(Submitted October, 2006)},
abstract = {Heterogeneous sensor networks consisting of
networked devices embedded into the physical world
have a significant role in pervasive computing
systems. Such sensor networks may contain wireless
sensor networks that are ensembles of small,
smart, and cheap sensing and computing devices
that permeate the environment, as well as
high-bandwidth rich sensors such as satellite
imaging systems, meteorological stations, air
quality stations, and security cameras. Emergency
response, homeland security, and many other
applications have a very real need to interconnect
such diverse networks and access information in
real-time. While Web service standards provide
well-developed mechanisms for resource-intensive
computing nodes, linking such mechanisms with
wireless sensor networks is very challenging
because of limited resources, volatile
communication links, and often node mobility. This
paper presents a service-oriented programming
model and middleware for ad-hoc wireless sensor
networks which permits discovery and access of Web
services. Sensor network applications are realized
as graphs of modular and autonomous services with
well-defined interfaces that allow them to be
published, discovered, and invoked over the
network, providing a convenient mechanism for
integrating services from heterogeneous sensor
systems. Our approach provides dynamic discovery,
composition, and binding of services based on an
efficient localized constraint satisfaction
algorithm that can be used for developing
ambient-aware applications that adapt to changes
in the environment. A tracking application that
employs many inexpensive sensor nodes, as well as
a Web service, is used to illustrate the approach.
Our results demonstrate the feasibility of
ambient-aware applications that interconnect
wireless sensor networks and Web services.},
URL = {http://chess.eecs.berkeley.edu/pubs/282.html}
}
Posted by Christopher Brooks on 6 Jun 2007.
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