Full-duplex self-backhauling for small-cell 5G networks

Author

Pitaval, Renaud-Alexandre ; Tirkkonen, Olav ; Wichman, Risto ; Pajukoski, Kari ; Lahetkangas, Eeva ; Tiirola, Esa

Volume

22

Issue

5

fYear

2015

fDate

10/1/2015 12:00:00 AM

Firstpage

83

Lastpage

89

Abstract

We consider in-band self-backhauling for small cell 5G systems. In-band self-backhauling enables efficient usage of frequency resources. When coupled with a flexible frame format, it also enables efficient time-division duplexing of uplink, downlink, and backhaul transmissions. Self-backhauling is particularly efficient when coupled with FD relaying. Antenna design, as well as cancellation in radio frequency and digital domains at an FD relay enables reuse of the same resources for backhaul and access hops. The use of radio resources in the self-backhauling and access hops can be coordinated to maximize end-to-end performance. We evaluate FD in-band self-backhauling in indoor 5G scenarios, targeting mobile broadband and ultrareliable communication use cases. Self-backhauling shows considerable promise for reaching 5G targets in these scenarios.

Keywords

5G mobile communication; broadband networks; cellular radio; mobile communication; telecommunication network reliability; time division multiplexing; FD relaying; antenna design; backhaul transmissions; downlink transmissions; full-duplex self-backhauling; in-band self-backhauling; mobile broadband communication; small cell 5G systems; small-cell 5G networks; time-division duplexing; ultrareliable communication; uplink transmissions; 5G mobile communication; Buildings; Interference; MIMO; Radio frequency; Relays; Reliability;

fLanguage

English

Journal_Title

Wireless Communications, IEEE

Publisher

ieee

ISSN

1536-1284

Type

jour

DOI

10.1109/MWC.2015.7306541

Filename

7306541