Wireless sensor networks, in an effort to be energy efficient, typically lack the high-level abstractions of advanced programming languages. Though strong, the dichotomy between these two paradigms can be overcome. The SENSIX software framework, described in this dissertation, uniquely integrates constraint-dominated wireless sensor networks with the flexibility of object-oriented programming models, without violating the principles of either. Though these two computing paradigms are contradictory in many ways, SENSIX bridges them to yield a dynamic middleware abstraction unifying low-level resource-aware task reconfiguration and high-level object recomposition. Through the layered approach of SENSIX, the software developer create...
The use of sensor networks in different spheres of the modern society is emerging as a new trend. Ho...
As the commoditization of sensing, actuation and communication hardware increases, so does the poten...
Today's generation of wireless sensor networks are now moving out of the lab and into the real world...
Wireless sensor networks, in an effort to be energy efficient, typically lack the high-level abstrac...
Reflection has been proven to be a powerful mechanism to address software adaptation in middleware a...
The development of a modern sensor network is difficult because of the long-term unattended operatio...
Today's generation of wireless sensor networks are now moving out of the lab and into the real world...
In the late 1990s, advances in sensing and computer technology have enabled the development of tiny...
In the vision of pervasive computing, technology is integrated throughout our environment. Wireless ...
Using middleware to bridge the gap between applications and low-level constructs is a novel approach...
Wireless Sensor Networks (WSNs) are a rapidly emerging research area because of their vast applicati...
As computers get smaller, their use is becoming more widespread and ubiquitous. Soon computers will ...
Wireless sensor networks (WSN) are long running distributed systems comprised of tiny devices called...
Wireless sensor networks (WSNs) are evolving to support sense-and-react applications, where actuator...
Developing and deploying end-to-end applications for sensor networks in a realistic (business) conte...
The use of sensor networks in different spheres of the modern society is emerging as a new trend. Ho...
As the commoditization of sensing, actuation and communication hardware increases, so does the poten...
Today's generation of wireless sensor networks are now moving out of the lab and into the real world...
Wireless sensor networks, in an effort to be energy efficient, typically lack the high-level abstrac...
Reflection has been proven to be a powerful mechanism to address software adaptation in middleware a...
The development of a modern sensor network is difficult because of the long-term unattended operatio...
Today's generation of wireless sensor networks are now moving out of the lab and into the real world...
In the late 1990s, advances in sensing and computer technology have enabled the development of tiny...
In the vision of pervasive computing, technology is integrated throughout our environment. Wireless ...
Using middleware to bridge the gap between applications and low-level constructs is a novel approach...
Wireless Sensor Networks (WSNs) are a rapidly emerging research area because of their vast applicati...
As computers get smaller, their use is becoming more widespread and ubiquitous. Soon computers will ...
Wireless sensor networks (WSN) are long running distributed systems comprised of tiny devices called...
Wireless sensor networks (WSNs) are evolving to support sense-and-react applications, where actuator...
Developing and deploying end-to-end applications for sensor networks in a realistic (business) conte...
The use of sensor networks in different spheres of the modern society is emerging as a new trend. Ho...
As the commoditization of sensing, actuation and communication hardware increases, so does the poten...
Today's generation of wireless sensor networks are now moving out of the lab and into the real world...