We study the feasibility of extending the lifetime of a wireless sensor network by exploiting mobility. In our system, a small percentage of network nodes are autonomously mobile, allowing them to move in search of energy, recharge, and delivery energy to immobile, energy-depleted nodes. We term this approach energy harvesting. We characterize the problem of uneven energy consumption, suggest energy harvesting as a possible solution, and provide a simple analytical framework to evaluate energy consumption and our scheme. Data from initial feasibility experiments using energy harvesting show promising results
The energy balance property (i.e., all nodes having the same energy throughout the network evolution...
Minimizing energy consumption for wireless sensor networks lifetime is one of the main problems in w...
The invention of batteries made it possible to store electricity for many purposes. One of the purpo...
We study the feasibility of extending the lifetime of a wireless sensor network by exploiting mobili...
Wireless sensor networks (WSNs) facilitate many applications in different fields and are well-known ...
Wireless sensor networks (WSNs) have been deployed widely in many different application including in...
Wireless Sensor Network is an emerging technology that has the potential to be used in futuristic ap...
Abstract—Energy Harvesting comprises a promising solution to one of the key problems faced by batter...
Wireless sensor networks have an extensive range of applications in the real world. From military us...
Advances in micro-electronics and miniaturized mechanical systems are redefining the scope and exten...
Nowadays, the use of sensor nodes for the IoT is widespread; nodes that compose these networks must ...
Power management is an important concern in sensor networks, because a tethered energy infrastructur...
Homes, offices and vehicles are getting networked. This will enable context aware, autonomous operat...
[[abstract]]The energy replenishment problem is an important issue in Wireless Rechargeable Sensor N...
Wireless sensor nodes (WSNs) are employed today in many different application areas, ranging from he...
The energy balance property (i.e., all nodes having the same energy throughout the network evolution...
Minimizing energy consumption for wireless sensor networks lifetime is one of the main problems in w...
The invention of batteries made it possible to store electricity for many purposes. One of the purpo...
We study the feasibility of extending the lifetime of a wireless sensor network by exploiting mobili...
Wireless sensor networks (WSNs) facilitate many applications in different fields and are well-known ...
Wireless sensor networks (WSNs) have been deployed widely in many different application including in...
Wireless Sensor Network is an emerging technology that has the potential to be used in futuristic ap...
Abstract—Energy Harvesting comprises a promising solution to one of the key problems faced by batter...
Wireless sensor networks have an extensive range of applications in the real world. From military us...
Advances in micro-electronics and miniaturized mechanical systems are redefining the scope and exten...
Nowadays, the use of sensor nodes for the IoT is widespread; nodes that compose these networks must ...
Power management is an important concern in sensor networks, because a tethered energy infrastructur...
Homes, offices and vehicles are getting networked. This will enable context aware, autonomous operat...
[[abstract]]The energy replenishment problem is an important issue in Wireless Rechargeable Sensor N...
Wireless sensor nodes (WSNs) are employed today in many different application areas, ranging from he...
The energy balance property (i.e., all nodes having the same energy throughout the network evolution...
Minimizing energy consumption for wireless sensor networks lifetime is one of the main problems in w...
The invention of batteries made it possible to store electricity for many purposes. One of the purpo...