Abstract—Wireless sensor networks are built from highly resource constrained embedded systems. Supporting multiple applications on the sensor network is a desirable goal, however, these constraints make supporting multiple concurrent applica-tions on each node difficult. Therefore, we propose a dynamic application switching approach where only a single application is active on each sensor node at a time. In this paper we present a dynamic application switching framework that can automat-ically reprogram the sensor node in response to application requests. We implement our framework on the TelosB platform and evaluate its performance using a 52-node sensor network testbed. The implementation of a two-stage bootloader reduces the memory requi...
Wireless sensor networks (WSNs) hosting multiple applications are gaining popularity over WSNs dedic...
TinyOS is an open-source component based operating system designed for highly memory constrained wir...
Abstract. A strategy for energy saving in wireless sensor networks is to manage the duty cycle of se...
Wireless Sensor Networks are an important example of networked embedded systems, and they have a key...
Abstract—Deploying large-scale sensor networks involves the programming of many devices based on a d...
Due to the low-cost and low-power requirement in an individual sensor node, the available computing ...
We present a system architecture implementation to perform dynamic application allocation in shared ...
In recent years, advances in hardware and software tools have led to many real-world sensor network ...
Today's generation of wireless sensor networks are now moving out of the lab and into the real world...
Multi-purpose sensor networks represent an emerging use case of wireless sensor networks. Multi-purp...
International audienceIn this paper, we present an approach allowing dynamic reconfiguration in wire...
Distributed sensing systems are complex integrations of constrained sensor networks with additional ...
The increase in computation and sensing capabilities as well as in battery duration of commercially ...
In-situ reconfiguration of software is indispensable in embedded networked sensing systems. The appl...
A wireless sensor network (WSN) consists of multiple small and simple computers (nodes), whose perfo...
Wireless sensor networks (WSNs) hosting multiple applications are gaining popularity over WSNs dedic...
TinyOS is an open-source component based operating system designed for highly memory constrained wir...
Abstract. A strategy for energy saving in wireless sensor networks is to manage the duty cycle of se...
Wireless Sensor Networks are an important example of networked embedded systems, and they have a key...
Abstract—Deploying large-scale sensor networks involves the programming of many devices based on a d...
Due to the low-cost and low-power requirement in an individual sensor node, the available computing ...
We present a system architecture implementation to perform dynamic application allocation in shared ...
In recent years, advances in hardware and software tools have led to many real-world sensor network ...
Today's generation of wireless sensor networks are now moving out of the lab and into the real world...
Multi-purpose sensor networks represent an emerging use case of wireless sensor networks. Multi-purp...
International audienceIn this paper, we present an approach allowing dynamic reconfiguration in wire...
Distributed sensing systems are complex integrations of constrained sensor networks with additional ...
The increase in computation and sensing capabilities as well as in battery duration of commercially ...
In-situ reconfiguration of software is indispensable in embedded networked sensing systems. The appl...
A wireless sensor network (WSN) consists of multiple small and simple computers (nodes), whose perfo...
Wireless sensor networks (WSNs) hosting multiple applications are gaining popularity over WSNs dedic...
TinyOS is an open-source component based operating system designed for highly memory constrained wir...
Abstract. A strategy for energy saving in wireless sensor networks is to manage the duty cycle of se...