Sensor networks, once deployed, are expected to continue to function unmanned. However, energy of the sensors is typically unrenewable thus making it a very scarce resource. Therefore, in order to extend the life of the sensor networks for the duration of a particular mission, energy has to be managed wisely. In this paper, we consider the problem of energy conservation for grid-based sensor networks. A wireless sensor network architecture that is based on mobile base station is presented. Based on this architecture, we propose an asynchronous duty-cycle scheduling scheme for extending the lifetime of the grid-based wireless sensor networks.<br /
Wireless sensor networks are considered the sensing technology of the future. Large numbers of untet...
Wireless Sensor Networks appear as a technology, which provides the basisfor a broad field of applic...
The lifetime of a wireless sensor network (WSN) is limited by the lifetime of the individual sensor ...
The increase in the demand for Wireless Sensor Networks (WSNs) has intensified studies which aim to ...
Recent advances in wireless technologies have led to an increased deployment of Wireless Sensor Netw...
Abstract — The increase in the demand for Wireless Sensor Networks (WSNs) has intensified studies wh...
Sensor networks have a wide range of potential, practical and useful applications. However, there ar...
In Wireless Sensor Network (WSN), the dense sensor nodes deployment in the sensing field can be expl...
Abstract Sensor networks have a wide range of po-tential, practical and useful applications. However...
Abstract — A crucial issue in deploying wireless sensor net-works is to perform a sensing task in an...
Network lifetime is a key issue in wireless sensor networks where sensor nodes, distributed typicall...
Wireless Sensor Networks (WSNs) facilitate, monitoring and controlling of physical environments from...
AbstractEnergy conservation of the sensor nodes is a burning issue and a central problem to the deve...
[[abstract]]The wireless sensor network is an emerging technology that may greatly facilitate human ...
Sleep scheduling, also known as duty cycling, which turn- s sensor nodes on and off in the necessary...
Wireless sensor networks are considered the sensing technology of the future. Large numbers of untet...
Wireless Sensor Networks appear as a technology, which provides the basisfor a broad field of applic...
The lifetime of a wireless sensor network (WSN) is limited by the lifetime of the individual sensor ...
The increase in the demand for Wireless Sensor Networks (WSNs) has intensified studies which aim to ...
Recent advances in wireless technologies have led to an increased deployment of Wireless Sensor Netw...
Abstract — The increase in the demand for Wireless Sensor Networks (WSNs) has intensified studies wh...
Sensor networks have a wide range of potential, practical and useful applications. However, there ar...
In Wireless Sensor Network (WSN), the dense sensor nodes deployment in the sensing field can be expl...
Abstract Sensor networks have a wide range of po-tential, practical and useful applications. However...
Abstract — A crucial issue in deploying wireless sensor net-works is to perform a sensing task in an...
Network lifetime is a key issue in wireless sensor networks where sensor nodes, distributed typicall...
Wireless Sensor Networks (WSNs) facilitate, monitoring and controlling of physical environments from...
AbstractEnergy conservation of the sensor nodes is a burning issue and a central problem to the deve...
[[abstract]]The wireless sensor network is an emerging technology that may greatly facilitate human ...
Sleep scheduling, also known as duty cycling, which turn- s sensor nodes on and off in the necessary...
Wireless sensor networks are considered the sensing technology of the future. Large numbers of untet...
Wireless Sensor Networks appear as a technology, which provides the basisfor a broad field of applic...
The lifetime of a wireless sensor network (WSN) is limited by the lifetime of the individual sensor ...