Sensor nodes constituting Wireless Sensor Networks (WSN) are often battery-operated and have limited resources. To save energy, nodes sleep most of the time, and wake up periodically to handle communication. Such radio duty cycling poses a basic trade-off between energy and latency. In previous work, we have shown that opportunistic routing is an efficient way to achieve low-latency yet energy efficient data collection in WSN. In this paper, we extend this approach to the context of low-power IP networks, where nodes need to be addressed individually and where traffic patterns are irregular. We present ORPL, an opportunistic extension of RPL, the standard, state-of-the-art routing protocol for low-power IP networks. We discuss our prelimina...
In this paper, we design and experiment ODYSSE (Opportunistic Duty cYcle based routing protocol for ...
Opportunistic routing is widely known to have substantially better performance than traditional unic...
Wireless Sensor Networks (WSN) are used in our daily life for monitoring and controlling application...
Sensor nodes constituting Wireless Sensor Networks (WSN) are often battery- operated and have limite...
Opportunistic routing is widely known to have substantially better performance than unicast routing ...
Routing in battery-operated wireless networks is challenging, posing a tradeoff between energy and l...
Traditionally, routing in wireless sensor networks consists of two steps: First, the routing protoco...
Routing in battery-operated wireless networks is challenging, posing a tradeoff between energy and l...
Traditionally, routing in wireless sensor networks consists of two steps: First, the routing protoco...
Traditionally, routing in wireless sensor networks consists of two steps: First, the routing protoco...
Wireless sensor networks (WSNs) are subject to significant resource constraints. Particularly, routi...
Different opportunistic routing protocols have been proposed recently for routing in sensor networks...
AbstractOpportunistic routing is a new paradigm in routing for wireless sensor network which chooses...
Opportunistic Routing (OR) scheme increases the transmission reliability despite the lossy wireless ...
Advances in wireless communication as well as in sensor technology have enabled many Wireless Senor ...
In this paper, we design and experiment ODYSSE (Opportunistic Duty cYcle based routing protocol for ...
Opportunistic routing is widely known to have substantially better performance than traditional unic...
Wireless Sensor Networks (WSN) are used in our daily life for monitoring and controlling application...
Sensor nodes constituting Wireless Sensor Networks (WSN) are often battery- operated and have limite...
Opportunistic routing is widely known to have substantially better performance than unicast routing ...
Routing in battery-operated wireless networks is challenging, posing a tradeoff between energy and l...
Traditionally, routing in wireless sensor networks consists of two steps: First, the routing protoco...
Routing in battery-operated wireless networks is challenging, posing a tradeoff between energy and l...
Traditionally, routing in wireless sensor networks consists of two steps: First, the routing protoco...
Traditionally, routing in wireless sensor networks consists of two steps: First, the routing protoco...
Wireless sensor networks (WSNs) are subject to significant resource constraints. Particularly, routi...
Different opportunistic routing protocols have been proposed recently for routing in sensor networks...
AbstractOpportunistic routing is a new paradigm in routing for wireless sensor network which chooses...
Opportunistic Routing (OR) scheme increases the transmission reliability despite the lossy wireless ...
Advances in wireless communication as well as in sensor technology have enabled many Wireless Senor ...
In this paper, we design and experiment ODYSSE (Opportunistic Duty cYcle based routing protocol for ...
Opportunistic routing is widely known to have substantially better performance than traditional unic...
Wireless Sensor Networks (WSN) are used in our daily life for monitoring and controlling application...