Considerable research has been performed in applying run-time reconfigurable component models to Wireless Sensor Networks. The ability to dynamically deploy or update software components has clear advantages in sensor network deployments, which are typically large in scale and expected to operate for long periods in dynamic environments. Realizing distributed reconfiguration in Wireless Sensor Networks is complicated by the inherently asynchronous and unreliable nature of these systems. In such an environment, achieving quiescence is both costly and impossible to guarantee. Additionally, the success of reconfiguration actions cannot be determined with certainty. This paper advocates for a hierarchical, adaptive, graph-based approach to supp...
Runtime variability is a key technique for the success of Dynamic Software Product Lines (DSPLs), as...
Context-aware environments are being populated with Wireless Sensor Networks (WSNs), observing senso...
Wireless Sensor Networks (WSNs) are subject to high levels of dynamism arising from changing environ...
Considerable research has been performed in applying run-time reconfigurable component models to Wir...
Considerable research has been performed in applying run-time reconfigurable component models to wir...
Considerable research has been performed in applying run-time reconfigurable component models to wir...
Considerable research has been performed in applying run-time reconfigurable component models to wir...
A wireless sensor network (WSN) consists of multiple small and simple computers (nodes), whose perfo...
International audienceWireless reprogramming of sensor nodes is a critical requirement in long-lived...
Wireless Sensor Networks (WSNs) are a rapidly emerging research area because of their vast applicati...
As wireless sensor networks (WSNs) must operate for long periods on a limited power budget, estimati...
In-situ reconfiguration is indispensable in sensor network deployments. It is required for efficient...
Wireless Sensor Networks (WSNs) are subject to high levels of dynamism arising from changing environ...
Abstract. Wireless Sensor Networks (WSNs) are increasingly being de-ployed for applications with dyn...
Achieving a clean separation of concerns is a well known approach to improving system adaptability a...
Runtime variability is a key technique for the success of Dynamic Software Product Lines (DSPLs), as...
Context-aware environments are being populated with Wireless Sensor Networks (WSNs), observing senso...
Wireless Sensor Networks (WSNs) are subject to high levels of dynamism arising from changing environ...
Considerable research has been performed in applying run-time reconfigurable component models to Wir...
Considerable research has been performed in applying run-time reconfigurable component models to wir...
Considerable research has been performed in applying run-time reconfigurable component models to wir...
Considerable research has been performed in applying run-time reconfigurable component models to wir...
A wireless sensor network (WSN) consists of multiple small and simple computers (nodes), whose perfo...
International audienceWireless reprogramming of sensor nodes is a critical requirement in long-lived...
Wireless Sensor Networks (WSNs) are a rapidly emerging research area because of their vast applicati...
As wireless sensor networks (WSNs) must operate for long periods on a limited power budget, estimati...
In-situ reconfiguration is indispensable in sensor network deployments. It is required for efficient...
Wireless Sensor Networks (WSNs) are subject to high levels of dynamism arising from changing environ...
Abstract. Wireless Sensor Networks (WSNs) are increasingly being de-ployed for applications with dyn...
Achieving a clean separation of concerns is a well known approach to improving system adaptability a...
Runtime variability is a key technique for the success of Dynamic Software Product Lines (DSPLs), as...
Context-aware environments are being populated with Wireless Sensor Networks (WSNs), observing senso...
Wireless Sensor Networks (WSNs) are subject to high levels of dynamism arising from changing environ...