AbstractIn this paper, the problem of maintaining sensing coverage by keeping a small number of active sensor nodes and a small amount of energy consumption in a wireless sensor network is studied. As opposed to the uniform sensing model previously, we consider a large number of sensors with adjustable sensing radius that are randomly deployed to monitor a target area. A novel coverage control scheme based on elitist non-dominated sorting genetic algorithm (NSGA-II) is proposed in a heterogeneous sensor network. By devising a cluster-based architecture, the algorithm is applied in a distributed way. Furthermore, an ameliorated binary coding is addressed to represent both sensing radius adjustment and sensor selection. Numerical and simulati...
© 2016 IEEE. In hostile environments, random deployment of a Wireless ¡Sensor Network (WSN) may be t...
AbstractA Wireless Sensor Network (WSN) is used to monitor an area for events. Each node in the WSN ...
Wireless sensor networks (WSNs) include sensor nodes in which each node is able to monitor the physi...
AbstractDue to the constrained energy and computational resources available to sensor nodes, the num...
Individual sensors in wireless mobile sensor networks (MSNs) can move in search of coverage region f...
AbstractA wireless sensor network is envisioned as a group of tiny power-constrained devices with fu...
International audienceThe sensor deployment problem consists in finding an optimal (or near-optimal)...
Wireless sensor network has many sensor nodes with characteristics of limited cost, collecting data,...
Part 1: IoT and Sensor NetworksInternational audienceMany clustering protocols have been proposed fo...
Many clustering protocols have been proposed for Wireless Sensor Networks (WSNs). However, most of t...
Abstract—The deployment strategy for achieving differentiated coverage and probabilistic connectivit...
9th WSEAS International Conference on Evolutionary Computing -- MAY 02-04, 2008 -- Tech Univ Sofia, ...
Ensuring optimal coverage is a central objective of every sensor deployment plan. Effective monitori...
International audienceIn recent years, wireless sensor networks (WSNs) have become very attractive f...
Wireless sensor networks extend the capability to monitor and control far-flung environments. Howeve...
© 2016 IEEE. In hostile environments, random deployment of a Wireless ¡Sensor Network (WSN) may be t...
AbstractA Wireless Sensor Network (WSN) is used to monitor an area for events. Each node in the WSN ...
Wireless sensor networks (WSNs) include sensor nodes in which each node is able to monitor the physi...
AbstractDue to the constrained energy and computational resources available to sensor nodes, the num...
Individual sensors in wireless mobile sensor networks (MSNs) can move in search of coverage region f...
AbstractA wireless sensor network is envisioned as a group of tiny power-constrained devices with fu...
International audienceThe sensor deployment problem consists in finding an optimal (or near-optimal)...
Wireless sensor network has many sensor nodes with characteristics of limited cost, collecting data,...
Part 1: IoT and Sensor NetworksInternational audienceMany clustering protocols have been proposed fo...
Many clustering protocols have been proposed for Wireless Sensor Networks (WSNs). However, most of t...
Abstract—The deployment strategy for achieving differentiated coverage and probabilistic connectivit...
9th WSEAS International Conference on Evolutionary Computing -- MAY 02-04, 2008 -- Tech Univ Sofia, ...
Ensuring optimal coverage is a central objective of every sensor deployment plan. Effective monitori...
International audienceIn recent years, wireless sensor networks (WSNs) have become very attractive f...
Wireless sensor networks extend the capability to monitor and control far-flung environments. Howeve...
© 2016 IEEE. In hostile environments, random deployment of a Wireless ¡Sensor Network (WSN) may be t...
AbstractA Wireless Sensor Network (WSN) is used to monitor an area for events. Each node in the WSN ...
Wireless sensor networks (WSNs) include sensor nodes in which each node is able to monitor the physi...