Wireless Information Transfer with Opportunistic Energy Harvesting

Energy harvesting is a promising solution to prolong the operation of energy-constrained wireless networks. In particular, scavenging energy from ambient radio signals, namely wireless energy harvesting (WEH), has recently drawn significant attention. In this paper, we consider a point-to-point wire...

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Vydáno v:	IEEE transactions on wireless communications Ročník 12; číslo 1; s. 288 - 300
Hlavní autoři:	Liu, Liang, Zhang, Rui, Chua, Kee-Chaing
Médium:	Journal Article
Jazyk:	angličtina
Vydáno:	New York, NY IEEE 01.01.2013 Institute of Electrical and Electronics Engineers The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Témata:	Antennas Applied sciences Channels Coding, codes Decoding Energy harvesting Energy transmission ergodic capacity Exact sciences and technology Fading fading channel Harvesting Information transfer Information, signal and communications theory Interference outage probability power control Radiocommunications Receivers Signal and communications theory Switches Switching Systems, networks and services of telecommunications Telecommunications Telecommunications and information theory Transmission and modulation (techniques and equipments) Transmitters Transmitters. Receivers Wireless communication Wireless communications Wireless networks wireless power transfer Ambient energy Parameter estimation Cochannel interference Wireless telecommunication Transmitter Power supply Wireless electricity Energy harvesting Optimization Mode switching outage probability Channel estimation ergodic capacity Delay time Receiving antenna Fading channels Time variable channel Radio wave fading channel Outage Ergodicity Decoding Mean value Narrow band Information transmission Power control Wireless network wireless power transfer Energy transfer
ISSN:	1536-1276, 1558-2248
On-line přístup:	Získat plný text
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Abstract	Energy harvesting is a promising solution to prolong the operation of energy-constrained wireless networks. In particular, scavenging energy from ambient radio signals, namely wireless energy harvesting (WEH), has recently drawn significant attention. In this paper, we consider a point-to-point wireless link over the narrowband flat-fading channel subject to time-varying co-channel interference. It is assumed that the receiver has no fixed power supplies and thus needs to replenish energy opportunistically via WEH from the unintended interference and/or the intended signal sent by the transmitter. We further assume a single-antenna receiver that can only decode information or harvest energy at any time due to the practical circuit limitation. Therefore, it is important to investigate when the receiver should switch between the two modes of information decoding (ID) and energy harvesting (EH), based on the instantaneous channel and interference condition. In this paper, we derive the optimal mode switching rule at the receiver to achieve various trade-offs between wireless information transfer and energy harvesting. Specifically, we determine the minimum transmission outage probability for delay-limited information transfer and the maximum ergodic capacity for no-delay-limited information transfer versus the maximum average energy harvested at the receiver, which are characterized by the boundary of so-called "outage-energy" region and "rate-energy" region, respectively. Moreover, for the case when the channel state information (CSI) is known at the transmitter, we investigate the joint optimization of transmit power control, information and energy transfer scheduling, and the receiver's mode switching. The effects of circuit energy consumption at the receiver on the achievable rate-energy trade-offs are also characterized. Our results provide useful guidelines for the efficient design of emerging wireless communication systems powered by opportunistic WEH.
AbstractList	Energy harvesting is a promising solution to prolong the operation of energy-constrained wireless networks. In particular, scavenging energy from ambient radio signals, namely wireless energy harvesting (WEH), has recently drawn significant attention. In this paper, we consider a point-to-point wireless link over the narrowband flat-fading channel subject to time-varying co-channel interference. It is assumed that the receiver has no fixed power supplies and thus needs to replenish energy opportunistically via WEH from the unintended interference and/or the intended signal sent by the transmitter. We further assume a single-antenna receiver that can only decode information or harvest energy at any time due to the practical circuit limitation. Therefore, it is important to investigate when the receiver should switch between the two modes of information decoding (ID) and energy harvesting (EH), based on the instantaneous channel and interference condition. In this paper, we derive the optimal mode switching rule at the receiver to achieve various trade-offs between wireless information transfer and energy harvesting. Specifically, we determine the minimum transmission outage probability for delay-limited information transfer and the maximum ergodic capacity for no-delay-limited information transfer versus the maximum average energy harvested at the receiver, which are characterized by the boundary of so-called "outage-energy" region and "rate-energy" region, respectively. Moreover, for the case when the channel state information (CSI) is known at the transmitter, we investigate the joint optimization of transmit power control, information and energy transfer scheduling, and the receiver's mode switching. The effects of circuit energy consumption at the receiver on the achievable rate-energy trade-offs are also characterized. Our results provide useful guidelines for the efficient design of emerging wireless communication systems powered by opportunistic WEH.
Author	Liang Liu Rui Zhang Kee-Chaing Chua
Author_xml	– sequence: 1 givenname: Liang surname: Liu fullname: Liu, Liang – sequence: 2 givenname: Rui surname: Zhang fullname: Zhang, Rui – sequence: 3 givenname: Kee-Chaing surname: Chua fullname: Chua, Kee-Chaing
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SubjectTerms	Antennas Applied sciences Channels Coding, codes Decoding Energy harvesting Energy transmission ergodic capacity Exact sciences and technology Fading fading channel Harvesting Information transfer Information, signal and communications theory Interference outage probability power control Radiocommunications Receivers Signal and communications theory Switches Switching Systems, networks and services of telecommunications Telecommunications Telecommunications and information theory Transmission and modulation (techniques and equipments) Transmitters Transmitters. Receivers Wireless communication Wireless communications Wireless networks wireless power transfer
Title	Wireless Information Transfer with Opportunistic Energy Harvesting
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