One of the most important issues of the wireless sensor networks is their energy consumption and life increase. In the sensor networks this is done by different guidelines, including creating planned coverage that causes all nodes would not be active all the time and act alternatively, while whole the network would always be under the sensor nodes coverage. Though there are different methods in this case, yet more effective ones are needed. In this research, a learning – based approach has been designed which decides about nodes being sleeping or awaking per round of nodes operation. Simulation shows that this method can work effectively and network life will increase at least 20 percent of past methods
Cataloged from PDF version of article.Sleep scheduling, which is putting some sensor nodes into slee...
AbstractIn energy constrained wireless sensor networks, maximizing network coverage lifetime while e...
Wireless Sensor Network is a wireless network consisting of spatially distributed autonomous devices...
International audienceThe challenge in the deployment of wireless sensor networks is to ensure the c...
Wireless Sensor Networks have seen tremendous advancement in design and applications in the recent y...
Recently, several algorithms have been proposed to solve the problem of target coverage in wireless ...
Wireless sensor networks (WSNs) are emerging as a key enabling technology for applications domains s...
Abstract: Wireless sensor network is one of the most powerful domain for research based on many char...
Wireless sensor network is always deployed randomly in specific area for intrusion detection and env...
Wireless sensor networks are made up of a large number of sensors deployed randomly in an ad-hoc man...
A varied wireless sensor network consists of many types of nodes in sequence. Some of the nodes have...
Wireless sensor networks (WSNs) have recently attained a great deal of attention due to their variou...
In Wireless Sensor Networks, two crucial parameters are lifetime of the network and optimal coverage...
This article studies the effect of partial coverage to extend the lifetime of wireless sensor networ...
Majority of wireless sensor networks (WSNs) clustering protocols in literature have focused on exten...
Cataloged from PDF version of article.Sleep scheduling, which is putting some sensor nodes into slee...
AbstractIn energy constrained wireless sensor networks, maximizing network coverage lifetime while e...
Wireless Sensor Network is a wireless network consisting of spatially distributed autonomous devices...
International audienceThe challenge in the deployment of wireless sensor networks is to ensure the c...
Wireless Sensor Networks have seen tremendous advancement in design and applications in the recent y...
Recently, several algorithms have been proposed to solve the problem of target coverage in wireless ...
Wireless sensor networks (WSNs) are emerging as a key enabling technology for applications domains s...
Abstract: Wireless sensor network is one of the most powerful domain for research based on many char...
Wireless sensor network is always deployed randomly in specific area for intrusion detection and env...
Wireless sensor networks are made up of a large number of sensors deployed randomly in an ad-hoc man...
A varied wireless sensor network consists of many types of nodes in sequence. Some of the nodes have...
Wireless sensor networks (WSNs) have recently attained a great deal of attention due to their variou...
In Wireless Sensor Networks, two crucial parameters are lifetime of the network and optimal coverage...
This article studies the effect of partial coverage to extend the lifetime of wireless sensor networ...
Majority of wireless sensor networks (WSNs) clustering protocols in literature have focused on exten...
Cataloged from PDF version of article.Sleep scheduling, which is putting some sensor nodes into slee...
AbstractIn energy constrained wireless sensor networks, maximizing network coverage lifetime while e...
Wireless Sensor Network is a wireless network consisting of spatially distributed autonomous devices...