Abstract — The inherent trade-off between energy-efficiency and rapidity of event dissemination is characteristic for wireless sensor networks. Scarcity of energy renders it necessary for nodes to spend a large portion of their lifetime in an energyefficient sleep mode during which they do neither receive nor send messages. On the other hand, the longer nodes stay in sleep mode, the slower will be the reaction time for disseminating an external event. The trade-off is prominently exhibited during the deployment phase of sensor networks, if some nodes are deployed earlier than others. In this paper, we study this fundamental trade-off by giving a formal model that enables us to compare the performance of different protocols and algorithms. B...
Abstract—Energy consumption is an important research topic in wireless sensor networks. Putting sens...
Abstract — This paper studies the challenging problem of energy minimization for data gathering over...
In this work we find a lower bound on the energy required for synchronizing moving sensor nodes in ...
This paper discusses a first attempt to investigate, using analytic means, the transmission delay an...
We consider wireless sensor networks with nodes switching ON (awake) and OFF (sleeping) to preserve ...
Wireless sensor networks (WSN) consists of unattended sensors with limited storage, energy (battery ...
International audienceOne of the major concerns in wireless sensor networks is improving the network...
This paper discusses a first attempt to investigate, using analytic means, the transmission delay an...
We consider a wireless sensor network whose nodes may enter the so-called sleep mode, corresponding ...
We introduce a new modelling assumption for wireless sensor networks, that of node redeployment (add...
Energy harvesting (EH) provides a means of greatly enhancing the lifetime of wireless sensor nodes. ...
(Under the direction of Dr. Rudra Dutta). A wireless sensor network is a network of nodes equipped w...
We consider a wireless sensor network, where nodes switch between an active (on) and a sleeping (off...
Abstract — Wireless sensor network is nothing but collection of wireless sensor nodes these are the ...
Several sensor network applications based on data diffusion and data management call determine the c...
Abstract—Energy consumption is an important research topic in wireless sensor networks. Putting sens...
Abstract — This paper studies the challenging problem of energy minimization for data gathering over...
In this work we find a lower bound on the energy required for synchronizing moving sensor nodes in ...
This paper discusses a first attempt to investigate, using analytic means, the transmission delay an...
We consider wireless sensor networks with nodes switching ON (awake) and OFF (sleeping) to preserve ...
Wireless sensor networks (WSN) consists of unattended sensors with limited storage, energy (battery ...
International audienceOne of the major concerns in wireless sensor networks is improving the network...
This paper discusses a first attempt to investigate, using analytic means, the transmission delay an...
We consider a wireless sensor network whose nodes may enter the so-called sleep mode, corresponding ...
We introduce a new modelling assumption for wireless sensor networks, that of node redeployment (add...
Energy harvesting (EH) provides a means of greatly enhancing the lifetime of wireless sensor nodes. ...
(Under the direction of Dr. Rudra Dutta). A wireless sensor network is a network of nodes equipped w...
We consider a wireless sensor network, where nodes switch between an active (on) and a sleeping (off...
Abstract — Wireless sensor network is nothing but collection of wireless sensor nodes these are the ...
Several sensor network applications based on data diffusion and data management call determine the c...
Abstract—Energy consumption is an important research topic in wireless sensor networks. Putting sens...
Abstract — This paper studies the challenging problem of energy minimization for data gathering over...
In this work we find a lower bound on the energy required for synchronizing moving sensor nodes in ...