We present the Low-Power Wireless Bus (LWB), a communication protocol that supports several traffic patterns and mobile nodes immersed in static infrastructures. LWB turns a multi-hop low-power wireless network into an infrastructure similar to a shared bus, where all nodes are potential receivers of all data. It achieves this by mapping all traffic demands on fast network floods, and by globally scheduling every flood. As a result, LWB inherently supports one-to- many, many-to-one, and many-to-many traffic. LWB also keeps no topology-dependent state, making it more resilient to link changes due to interference, node failures, and mobility than prior approaches. We compare the same LWB prototype on four testbeds with seven state-of-the-art ...
Low-power wireless networks consist of spatially distributed, resource-constrained devices – also re...
In this thesis, three issues in wireless and mobile networks are considered. The first issue is the ...
The Internet of Things (IoT) encompasses a broad array of technologies that connect the physical wor...
We present the Low-Power Wireless Bus (LWB), a communication protocol that supports several traffic ...
Flooding-based communication with protocols such as Glossy is being used in- creasingly in low-powe...
We present a transport protocol whose goal is to reduce power consumption without compromising deliv...
With the rapid expansion of the Internet of Things, an increasing number of applications relies on r...
We present a transport protocol whose goal is to reduce power consumption without compromising deliv...
Low-power wireless networks must leverage radio duty cycling to reduce energy consumption, but duty ...
Nowadays, more and more objects are being connected to the Internet as the resulting Internet of Thi...
Low-power wireless technology enables numerous applications in areas from environmental monitoring a...
\u3cp\u3eInternet of Things promises large scale interconnected sensing and actuation capabilities i...
Low-power wireless networking needs to survive interference in order to accommodate the requirements...
Modern protocols for wireless sensor networks efficiently support multi-hop upward traffic from many...
Technology is evolving towards a higher degree of automation and connectivity, with concepts of Perv...
Low-power wireless networks consist of spatially distributed, resource-constrained devices – also re...
In this thesis, three issues in wireless and mobile networks are considered. The first issue is the ...
The Internet of Things (IoT) encompasses a broad array of technologies that connect the physical wor...
We present the Low-Power Wireless Bus (LWB), a communication protocol that supports several traffic ...
Flooding-based communication with protocols such as Glossy is being used in- creasingly in low-powe...
We present a transport protocol whose goal is to reduce power consumption without compromising deliv...
With the rapid expansion of the Internet of Things, an increasing number of applications relies on r...
We present a transport protocol whose goal is to reduce power consumption without compromising deliv...
Low-power wireless networks must leverage radio duty cycling to reduce energy consumption, but duty ...
Nowadays, more and more objects are being connected to the Internet as the resulting Internet of Thi...
Low-power wireless technology enables numerous applications in areas from environmental monitoring a...
\u3cp\u3eInternet of Things promises large scale interconnected sensing and actuation capabilities i...
Low-power wireless networking needs to survive interference in order to accommodate the requirements...
Modern protocols for wireless sensor networks efficiently support multi-hop upward traffic from many...
Technology is evolving towards a higher degree of automation and connectivity, with concepts of Perv...
Low-power wireless networks consist of spatially distributed, resource-constrained devices – also re...
In this thesis, three issues in wireless and mobile networks are considered. The first issue is the ...
The Internet of Things (IoT) encompasses a broad array of technologies that connect the physical wor...