In Rechargeable Wireless Sensor Networks(R-WSNs), it is critical for data collection because a sensor has to operate in a very low and dynamic duty cycle owing to sporadic availability of energy. In this work, we propose a distribute maximum rate allocation based on data aggregation to compute an upper data generation rate by maximizing it as a linear programming problem. Subsequently, a dual problem by introducing Lagrange multipliers is constructed, and subgradient algorithms are used to solve it in a distributed manner. The resulting algorithms are guaranteed to converge to an optimal value with low computational complexity. Through extensive simulation and experiments, we demonstrate our algorithm is efficient to maximize data collectio...
Understanding the optimal usage of fluctuating renewable energy in wireless sensor networks (WSNs) ...
In rechargeable or energy harvesting wireless sensor networks (WSNs), a key concern is the max flow ...
In a sensor network the sensors, or nodes, obtain data and have to communicate these data to a centr...
In Rechargeable Wireless Sensor Networks(R-WSNs), it is critical for data collection because a senso...
In Rechargeable Wireless Sensor Networks (R-WSNs), in order to achieve the maximum data collection r...
In this paper, we propose an effective distributed algorithm to solve the minimum energy data gather...
Understanding the optimal usage of fluctuating renewable energy in Wireless Sensor Networks (WSNs) i...
© 2016 IEEE. We consider Rechargeable Wireless Sensor Networks (R-WSNs) where nodes harvest energy f...
IEEE In a rechargeable Wireless Sensor Network (rWSN), the amount of data forwarded by source nodes ...
A sensor network consists of sensing devices which may exchange data through wireless communication;...
In this paper we present an approach to the joint design of distributed data compression and data di...
International audienceThis paper considers the Slepian-Wolf coding based energy-minimization rate al...
A sensor network consists of sensing devices which may exchange data through wireless communication;...
To reduce time delays during data collection and prolong the network lifetime in Wireless Rechargeab...
© 1967-2012 IEEE. In a rechargeable wireless sensor network, the data packets are generated by senso...
Understanding the optimal usage of fluctuating renewable energy in wireless sensor networks (WSNs) ...
In rechargeable or energy harvesting wireless sensor networks (WSNs), a key concern is the max flow ...
In a sensor network the sensors, or nodes, obtain data and have to communicate these data to a centr...
In Rechargeable Wireless Sensor Networks(R-WSNs), it is critical for data collection because a senso...
In Rechargeable Wireless Sensor Networks (R-WSNs), in order to achieve the maximum data collection r...
In this paper, we propose an effective distributed algorithm to solve the minimum energy data gather...
Understanding the optimal usage of fluctuating renewable energy in Wireless Sensor Networks (WSNs) i...
© 2016 IEEE. We consider Rechargeable Wireless Sensor Networks (R-WSNs) where nodes harvest energy f...
IEEE In a rechargeable Wireless Sensor Network (rWSN), the amount of data forwarded by source nodes ...
A sensor network consists of sensing devices which may exchange data through wireless communication;...
In this paper we present an approach to the joint design of distributed data compression and data di...
International audienceThis paper considers the Slepian-Wolf coding based energy-minimization rate al...
A sensor network consists of sensing devices which may exchange data through wireless communication;...
To reduce time delays during data collection and prolong the network lifetime in Wireless Rechargeab...
© 1967-2012 IEEE. In a rechargeable wireless sensor network, the data packets are generated by senso...
Understanding the optimal usage of fluctuating renewable energy in wireless sensor networks (WSNs) ...
In rechargeable or energy harvesting wireless sensor networks (WSNs), a key concern is the max flow ...
In a sensor network the sensors, or nodes, obtain data and have to communicate these data to a centr...