Toward self-sustainable cooperative relays: state of the art and the future

Cooperative relaying has been recognized as a promising technique to exploit spatial diversity gain using simple hardware, but it may barely fall in the class of green communications because extra power is consumed for information relaying. Recent advances in energy harvesting devices have paved the way for self-sustainable relays that power themselves by replenishing ambient energy without wires. This article examines the current progress of EH relays with special emphasis on wireless power transfer through RF signals that carry both information and energy at the same time. In this context, information relaying and EH are two tightly coupled processes, and practical constraints of EH devices pose new challenges to self-sustainable relays. This article addresses these issues and points out future research directions.

[1]  Anant Sahai,et al.  Shannon meets Tesla: Wireless information and power transfer , 2010, 2010 IEEE International Symposium on Information Theory.

[2]  Caijun Zhong,et al.  Wireless Information and Power Transfer With Full Duplex Relaying , 2014, IEEE Transactions on Communications.

[3]  Hyungsik Ju,et al.  A Novel Mode Switching Scheme Utilizing Random Beamforming for Opportunistic Energy Harvesting , 2014, IEEE Transactions on Wireless Communications.

[4]  Bayan S. Sharif,et al.  Wireless Information and Power Transfer in Cooperative Networks With Spatially Random Relays , 2014, IEEE Transactions on Wireless Communications.

[5]  David Tse,et al.  Fundamentals of Wireless Communication , 2005 .

[6]  Ali A. Nasir,et al.  Relaying Protocols for Wireless Energy Harvesting and Information Processing , 2012, IEEE Transactions on Wireless Communications.

[7]  Purushottam Kulkarni,et al.  Energy Harvesting Sensor Nodes: Survey and Implications , 2011, IEEE Communications Surveys & Tutorials.

[8]  Yong Liang Guan,et al.  Dynamic Resource Allocation for Multiple-Antenna Wireless Power Transfer , 2013, IEEE Transactions on Signal Processing.

[9]  Ranjan K. Mallik,et al.  Joint Power Allocation and Relay Selection in Energy Harvesting AF Relay Systems , 2013, IEEE Wireless Communications Letters.

[10]  Deniz Gündüz,et al.  Designing intelligent energy harvesting communication systems , 2014, IEEE Communications Magazine.

[11]  H. Vincent Poor,et al.  Dimensioning network deployment and resource management in green mesh networks , 2011, IEEE Wireless Communications.

[12]  K. Mayaram,et al.  Efficient Far-Field Radio Frequency Energy Harvesting for Passively Powered Sensor Networks , 2008, IEEE Journal of Solid-State Circuits.

[13]  H. Vincent Poor,et al.  Power Allocation Strategies in Energy Harvesting Wireless Cooperative Networks , 2013, IEEE Transactions on Wireless Communications.

[14]  Kuang-Hao Liu On the Performance of Time-Orthogonal Incremental Relaying Based on Demodulate-and-Forward With Distributed Channel Access , 2012, IEEE Transactions on Vehicular Technology.