On-off transmission policy for wireless powered communication with energy storage

Morsi R, Michalopoulos D, Schober R (2015)

Publication Type: Conference contribution

Publication year: 2015

Journal

Conference Record of the Asilomar Conference on Signals, Systems and Computers Institute of Electrical and Electronics Engineers

Publisher: IEEE Computer Society

Book Volume: 2015-April

Pages Range: 1676-1682

Conference Proceedings Title: Conference Record - Asilomar Conference on Signals, Systems and Computers

Event location: Pacific Grove, CA US

ISBN: 9781479982974

DOI: 10.1109/ACSSC.2014.7094752

Abstract

In this paper, we consider an energy harvesting (EH) node which harvests energy from a radio frequency (RF) signal broadcasted by an access point (AP) in the downlink (DL). The node stores the harvested energy in an energy buffer and uses the stored energy to transmit data to the AP in the uplink (UL). We consider a simple transmission policy, which accounts for the fact that, in practice, the EH node may not have knowledge of the EH profile nor of the UL channel state information. In particular, in each time slot, the EH node transmits with either a constant desired power or remains silent if not enough energy is available in its energy buffer. For this simple policy, we use the theory of discrete-time continuous-state Markov chains to analyze the limiting distribution of the stored energy for finite- and infinite-size energy buffers. Moreover, we take into account imperfections of the energy buffer and the circuit power consumption of the EH node. For a Rayleigh fading DL channel, we provide the limiting distribution of the energy buffer content in closed form. In addition, we analyze the average error rate and the outage probability of a Rayleigh faded UL channel and show that the diversity order is not affected by the finite capacity of the energy buffer. Our results reveal that, for medium to high signal-to-noise ratio (SNRs), the optimal target transmit power of the EH node is less than the average harvested power and increases with the capacity of the energy buffer.

Authors with CRIS profile

Rania Morsi Lehrstuhl für Digitale Übertragung Diomidis Michalopoulos Lehrstuhl für Digitale Übertragung Robert Schober Lehrstuhl für Digitale Übertragung

How to cite

APA:

Morsi, R., Michalopoulos, D., & Schober, R. (2015). On-off transmission policy for wireless powered communication with energy storage. In Michael B. Matthews (Eds.), Conference Record - Asilomar Conference on Signals, Systems and Computers (pp. 1676-1682). Pacific Grove, CA, US: IEEE Computer Society.

MLA:

Morsi, Rania, Diomidis Michalopoulos, and Robert Schober. "On-off transmission policy for wireless powered communication with energy storage." Proceedings of the 48th Asilomar Conference on Signals, Systems and Computers, ACSSC 2015, Pacific Grove, CA Ed. Michael B. Matthews, IEEE Computer Society, 2015. 1676-1682.

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