In this chapter, we investigate the problem of efficient wireless power transfer in Wireless Rechargeable Sensor Networks (WRSNs). In such networks a special mobile entity (called the Mobile Charger) traverses the network and wirelessly replenishes the energy of sensor nodes. In contrast to other approaches, we envision methods that are distributed, adaptive and use limited network information. We propose three new, alternative protocols for efficient charging, addressing key issues which we identify, most notably (i) to what extent each sensor should be charged (ii) what is the best split of the total energy between the charger and the sensors and (iii) what are good trajectories the Mobile Charger should follow. One of our protocols (LRP)...
Wireless energy transfer has emerged as a promising technology for wireless sensor networks to power...
The network lifetime of wireless rechargeable sensor network (WRSN) is commonly extended through rou...
This paper proposes energy‐efficient swarm intelligence (SI)‐based approaches for efficient mobile w...
We investigate the problem of efficient wireless energy transfer in Wireless Rechargeable Sensor Net...
Rapid technological advances in the domain of Wireless Power Transfer pave the way for novel methods...
The recent breakthrough in wireless power transfer (WPT) technology has empowered wireless rechargea...
In recent times, wireless energy transfer has become an effective solution to charge devices due to ...
Wireless power transfer is used to fundamentally address energy management problems in Wireless Rech...
Wireless power transfer techniques to transfer energy have been widely adopted by wireless rechargea...
Energy is one of the most critical optimization objectives in wireless sensor networks. Compared wit...
Wireless sensor networks, due to their various applications in many fields and limited power consump...
Traditional sensor nodes are usually battery powered, and the limited battery power constrains the o...
© 1993-2012 IEEE. Wireless energy transfer has emerged as a promising technology for wireless sensor...
Wireless sensor networks are equipped with batteries with limited charge, and are often deployed in ...
The wireless rechargeable sensor network is attractive crucial and important in recent years for the...
Wireless energy transfer has emerged as a promising technology for wireless sensor networks to power...
The network lifetime of wireless rechargeable sensor network (WRSN) is commonly extended through rou...
This paper proposes energy‐efficient swarm intelligence (SI)‐based approaches for efficient mobile w...
We investigate the problem of efficient wireless energy transfer in Wireless Rechargeable Sensor Net...
Rapid technological advances in the domain of Wireless Power Transfer pave the way for novel methods...
The recent breakthrough in wireless power transfer (WPT) technology has empowered wireless rechargea...
In recent times, wireless energy transfer has become an effective solution to charge devices due to ...
Wireless power transfer is used to fundamentally address energy management problems in Wireless Rech...
Wireless power transfer techniques to transfer energy have been widely adopted by wireless rechargea...
Energy is one of the most critical optimization objectives in wireless sensor networks. Compared wit...
Wireless sensor networks, due to their various applications in many fields and limited power consump...
Traditional sensor nodes are usually battery powered, and the limited battery power constrains the o...
© 1993-2012 IEEE. Wireless energy transfer has emerged as a promising technology for wireless sensor...
Wireless sensor networks are equipped with batteries with limited charge, and are often deployed in ...
The wireless rechargeable sensor network is attractive crucial and important in recent years for the...
Wireless energy transfer has emerged as a promising technology for wireless sensor networks to power...
The network lifetime of wireless rechargeable sensor network (WRSN) is commonly extended through rou...
This paper proposes energy‐efficient swarm intelligence (SI)‐based approaches for efficient mobile w...