We study perpetual target coverage with an energy harvesting wireless sensor network (WSN) assuming that each sensor can modulate its sensing range by dynamically varying its operating power, e.g., radar sensors. In this variable-power scheduling scenario, we first consider the maximum network lifetime problem for battery-powered WSNs. The solution to this problem allows us to decide if a given energy harvesting WSN is capable of perpetual operation satisfying energy neutrality. Then, we formulate the energy efficient perpetual target coverage problem and prove its NP completeness. A polynomial algorithm is proposed, and its effectiveness is validated through extensive numerical simulations
In this paper, we present two distributed algorithms to maximize the lifetime of Wireless Sensor Net...
International audienceThe challenge in the deployment of wireless sensor networks is to ensure the c...
Network lifetime is a key issue in wireless sensor networks where sensor nodes, distributed typicall...
We study perpetual target coverage with an energy harvesting wireless sensor network (WSN) assuming ...
This paper considers energy harvesting sensor nodes monitoring multiple fixed targets. The goal is t...
Abstract—A fundamental problem in energy harvesting Wire-less Sensor Networks (WSNs) is to maximize ...
Wireless sensor networks (WSNs) have recently attained a great deal of attention due to their variou...
A Wireless Sensor Network (WSN), in general, contains many low-cost sensor nodes, each with the capa...
The coverage and energy issues are the fundamental problems which prevent the development of wireles...
The increase in the demand for Wireless Sensor Networks (WSNs) has intensified studies which aim to ...
Wireless Sensor Networks are generally characterized by a large number of small sensing devices (sen...
Abstract—In energy harvesting wireless sensor networks, en-suring complete targets coverage is a fun...
Design and technical advancements in sensing, processing, and communicating capabilities of small, p...
Wireless sensor networks involve a large area of real-world contexts, such as national security, mil...
We consider a wireless sensor network deployed to observe a physical phenomenon. The sensors amplify...
In this paper, we present two distributed algorithms to maximize the lifetime of Wireless Sensor Net...
International audienceThe challenge in the deployment of wireless sensor networks is to ensure the c...
Network lifetime is a key issue in wireless sensor networks where sensor nodes, distributed typicall...
We study perpetual target coverage with an energy harvesting wireless sensor network (WSN) assuming ...
This paper considers energy harvesting sensor nodes monitoring multiple fixed targets. The goal is t...
Abstract—A fundamental problem in energy harvesting Wire-less Sensor Networks (WSNs) is to maximize ...
Wireless sensor networks (WSNs) have recently attained a great deal of attention due to their variou...
A Wireless Sensor Network (WSN), in general, contains many low-cost sensor nodes, each with the capa...
The coverage and energy issues are the fundamental problems which prevent the development of wireles...
The increase in the demand for Wireless Sensor Networks (WSNs) has intensified studies which aim to ...
Wireless Sensor Networks are generally characterized by a large number of small sensing devices (sen...
Abstract—In energy harvesting wireless sensor networks, en-suring complete targets coverage is a fun...
Design and technical advancements in sensing, processing, and communicating capabilities of small, p...
Wireless sensor networks involve a large area of real-world contexts, such as national security, mil...
We consider a wireless sensor network deployed to observe a physical phenomenon. The sensors amplify...
In this paper, we present two distributed algorithms to maximize the lifetime of Wireless Sensor Net...
International audienceThe challenge in the deployment of wireless sensor networks is to ensure the c...
Network lifetime is a key issue in wireless sensor networks where sensor nodes, distributed typicall...