Wireless sensor networks (WSNs) consist of energy limited sensor nodes, which limits the network lifetime. Such a lifetime can be prolonged by employing the emerging technology of wireless energy transfer (WET). In WET systems, the sensor nodes can harvest wireless energy from wireless charger, which can use energy beamforming to improve the efficiency. In this paper, a scenario where dedicated wireless chargers with multiple antennas use energy beamforming to charge sensor nodes is considered. The energy beamforming is coupled with the energy consumption of sensor nodes in terms of data routing, which is one novelty of the paper. The energy beamforming and the data routing are jointly optimized by a non-convex optimization problem. This pr...
Abstract—Traditional wireless sensor networks are constrained by limited battery energy. Thus, finit...
Energy efficiency is a major design issue in the context of Wireless Sensor Networks (WSN). If data ...
Harnessing energy from environmental sources such as solar and wind is an attractive solution to the...
Wireless sensor networks (WSNs) consist of energy limited sensor nodes, which limits the network lif...
The lifetime of a wireless sensor network (WSN) determines how long the network can be used to monit...
Wireless sensor networks (WSNs) are nowadays widely used for the long-term monitoring of small or la...
In Wireless Sensor Networks (WSNs), to supply energy to the sensor nodes, wireless energy transfer (...
In a typical wirelessly powered sensor network (WPSN), wireless chargers provide energy to sensor no...
Wirelessly-powered sensor networks (WPSNs) are becoming increasingly important in different monitori...
Distinct from wireless ad hoc networks, wireless sensor networks are data-centric, application-orien...
Energy efficiency is a major design issue in the context of Wireless Sensor Networks (WSN). If the a...
Wireless sensor networks are equipped with batteries with limited charge, and are often deployed in ...
© 2018 Dr Amanthi ThudugalageWireless energy harvesting is one of the promising alternative methods ...
Energy efficiency is a critical issue for wireless sensor networks (WSNs) as sensor nodes have limit...
Abstract—Traditional wireless sensor networks are constrained by limited battery energy. Thus, finit...
Energy efficiency is a major design issue in the context of Wireless Sensor Networks (WSN). If data ...
Harnessing energy from environmental sources such as solar and wind is an attractive solution to the...
Wireless sensor networks (WSNs) consist of energy limited sensor nodes, which limits the network lif...
The lifetime of a wireless sensor network (WSN) determines how long the network can be used to monit...
Wireless sensor networks (WSNs) are nowadays widely used for the long-term monitoring of small or la...
In Wireless Sensor Networks (WSNs), to supply energy to the sensor nodes, wireless energy transfer (...
In a typical wirelessly powered sensor network (WPSN), wireless chargers provide energy to sensor no...
Wirelessly-powered sensor networks (WPSNs) are becoming increasingly important in different monitori...
Distinct from wireless ad hoc networks, wireless sensor networks are data-centric, application-orien...
Energy efficiency is a major design issue in the context of Wireless Sensor Networks (WSN). If the a...
Wireless sensor networks are equipped with batteries with limited charge, and are often deployed in ...
© 2018 Dr Amanthi ThudugalageWireless energy harvesting is one of the promising alternative methods ...
Energy efficiency is a critical issue for wireless sensor networks (WSNs) as sensor nodes have limit...
Abstract—Traditional wireless sensor networks are constrained by limited battery energy. Thus, finit...
Energy efficiency is a major design issue in the context of Wireless Sensor Networks (WSN). If data ...
Harnessing energy from environmental sources such as solar and wind is an attractive solution to the...