Understanding UAV Cellular Communications: From Existing Networks to Massive MIMO
April 20, 2018 Β· Declared Dead Β· π IEEE Access
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Authors
Giovanni Geraci, Adrian Garcia-Rodriguez, Lorenzo Galati Giordano, David LΓ³pez-PΓ©rez, Emil BjΓΆrnson
arXiv ID
1804.08489
Category
cs.IT: Information Theory
Cross-listed
eess.SP
Citations
138
Venue
IEEE Access
Last Checked
4 months ago
Abstract
The purpose of this article is to bestow the reader with a timely study of UAV cellular communications, bridging the gap between the 3GPP standardization status quo and the more forward-looking research. Special emphasis is placed on the downlink command and control (C&C) channel to aerial users, whose reliability is deemed of paramount technological importance for the commercial success of UAV cellular communications. Through a realistic side-by-side comparison of two network deployments -- a present-day cellular infrastructure versus a next-generation massive MIMO system -- a plurality of key facts are cast light upon, with the three main ones summarized as follows: (i) UAV cell selection is essentially driven by the secondary lobes of a base station's radiation pattern, causing UAVs to associate to far-flung cells; (ii) over a 10 MHz bandwidth, and for UAV heights of up to 300 m, massive MIMO networks can support 100 kbps C&C channels in 74% of the cases when the uplink pilots for channel estimation are reused among base station sites, and in 96% of the cases without pilot reuse across the network; (iii) supporting UAV C&C channels can considerably affect the performance of ground users on account of severe pilot contamination, unless suitable power control policies are in place.
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