Can uplink transmissions survive in full-duplex cellular environments?

Hesham ElSawy, Ahmad AlAmmouri, Osama Amin, Mohamed Slim Alouini

Research output: Chapter in Book/Report/Conference proceedingConference contributionpeer-review

5 Scopus citations

Abstract

In-band full-duplex (FD) communication is considered a potential candidate to be adopted by the fifth generation (5G) cellular networks. FD communication renders the entire spectrum simultaneously accessible by uplink and downlink, and hence, is optimistically promoted to double the transmission rate. While this is true for a single communication link, cross-mode interference (i.e., interference between uplink and downlink) may diminish the full-duplexing gain. This paper studies FD operation in large-scale cellular networks with real base stations (BSs) locations and 3GPP propagation environment. The results show that the uplink is the bottleneck for FD operation due to the overwhelming cross-mode interference from BSs. Operating uplink and downlink on a common set of channels in an FD fashion improves the downlink rate but significantly degrades (over 1000-fold) the uplink rate. Therefore, we propose the a-duplex scheme to balance the tradeoff between the uplink and downlink rates via adjustable partial overlap between uplink and downlink channels. The a-duplex scheme can provide a simultaneous 30% improvement in each of the uplink and downlink rates. To this end, we discuss the backward compatibility of the a-duplex scheme with half-duplex user-terminals. Finally, we point out future research directions for FD enabled cellular networks.

Original languageEnglish (US)
Title of host publicationEuropean Wireless Conference 2016, EW 2016
PublisherVDE
Pages276-281
Number of pages6
ISBN (Electronic)9783800742219
StatePublished - Jan 1 2016
Event22nd European Wireless Conference, EW 2016 - Oulu, Finland
Duration: May 18 2016May 20 2016

Conference

Conference22nd European Wireless Conference, EW 2016
CountryFinland
CityOulu
Period05/18/1605/20/16

Keywords

  • 5G cellular networks
  • Cross-mode interference
  • Full-duplex
  • Pulse-shaping

ASJC Scopus subject areas

  • Electrical and Electronic Engineering
  • Computer Networks and Communications

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