Wireless Sensor Networks (WSN) are mainly utilized for time sensitive applications such as forest fire detection systems and health monitoring systems. Sensor nodes are operated on low power and limited computation process. It is essential to develop the solution for planning the topological area. Multiple sinks are located in the network and reduce the number of hops between the sensors and its sinks. We propose an efficient technique based on Bacteria Foraging Algorithm to identify the best optimal locations of sinks. The experimental results show that average end to end delay is minimized and average energy consumption of sensor nodes are reduced
Wireless Sensor Networks (WSNs) enable new applications and need non-conventional paradigms for the ...
Wireless sensor networks (WSNs) are a family of wireless networks that usually operate with irreplac...
AbstractThis article proposes a scheme for selecting the best site for sink placement in WSN applica...
In multihop data collection sensor network, nodes near the sink need to relay on remote data and, th...
Reserve the wireless sensor networks (WSNs) lifetime for as long as possible is a current goal. In W...
Optimization techniques based on Swarm-intelligence has been reported to have significant benefits t...
Optimization techniques based on Swarm-intelligence has been reported to have significant benefits t...
We study the problem of positioning sinks, or data collection stops, in wireless sensor networks. To...
In recent years, the maximization of a lifetime for wireless sensor networks is considered an import...
Wireless sensors are the emerging area in networking. Wireless sensors consist of numerous sensors d...
In Wireless Sensor Networks, potential sink selection and sink movements are costly in terms of node...
In today’s wireless sensor networks mobile sinks plays an important role in data transmission and re...
Abstract. In many applications of wireless sensor networks (WSNs) where sensors are deployed in area...
This research studies energy efficiency in wireless sensor networks. A Wireless Sensor Network is a ...
AbstractIn case of wireless sensor networks (WSNs) the sensed data which are collected by the ordina...
Wireless Sensor Networks (WSNs) enable new applications and need non-conventional paradigms for the ...
Wireless sensor networks (WSNs) are a family of wireless networks that usually operate with irreplac...
AbstractThis article proposes a scheme for selecting the best site for sink placement in WSN applica...
In multihop data collection sensor network, nodes near the sink need to relay on remote data and, th...
Reserve the wireless sensor networks (WSNs) lifetime for as long as possible is a current goal. In W...
Optimization techniques based on Swarm-intelligence has been reported to have significant benefits t...
Optimization techniques based on Swarm-intelligence has been reported to have significant benefits t...
We study the problem of positioning sinks, or data collection stops, in wireless sensor networks. To...
In recent years, the maximization of a lifetime for wireless sensor networks is considered an import...
Wireless sensors are the emerging area in networking. Wireless sensors consist of numerous sensors d...
In Wireless Sensor Networks, potential sink selection and sink movements are costly in terms of node...
In today’s wireless sensor networks mobile sinks plays an important role in data transmission and re...
Abstract. In many applications of wireless sensor networks (WSNs) where sensors are deployed in area...
This research studies energy efficiency in wireless sensor networks. A Wireless Sensor Network is a ...
AbstractIn case of wireless sensor networks (WSNs) the sensed data which are collected by the ordina...
Wireless Sensor Networks (WSNs) enable new applications and need non-conventional paradigms for the ...
Wireless sensor networks (WSNs) are a family of wireless networks that usually operate with irreplac...
AbstractThis article proposes a scheme for selecting the best site for sink placement in WSN applica...