A Flexible IAB Architecture for Beyond 5G Network

TL;DR

This paper proposes a novel, flexible IAB architecture for beyond 5G networks that overcomes limitations of the 3GPP standard, supporting mobility, dual-connectivity, and multi-RAT coexistence, with demonstrated capacity and robustness improvements.

Contribution

It introduces a new IAB architecture that supports mobile relays, dual-connectivity, and multi-RAT coexistence, enhancing deployment flexibility and performance in B5G networks.

Findings

Architecture improves capacity and mobility robustness.

Simulation confirms advantages over 3GPP IAB architecture.

Supports plug-and-play deployment in diverse scenarios.

Abstract

IAB is an innovative wireless backhaul solution to provide cost-efficient deployment of small cells for successful 5G adoption. Besides, IAB can utilize the same spectrum for access and backhaul purposes. The 3GPP standardized IAB in Release 16 and would incorporate a few enhancements in the upcoming releases. The 3GPP IAB architecture, however, suffers from some limitations, such as it does not support mobile relays or dual-connectivity. This article presents a novel IAB architecture that addresses these limitations and is transparent to legacy operations of the 5G system. The architecture also supports multi-RAT coexistence where access and backhaul may belong to different RATs. These factors (and many others) enable operators to capitalize on the architecture for deploying IAB anywhere in a plug-and-play manner. We also show the merits of the architecture by evaluating its capacity and mobility robustness compared to the 3GPP architecture. Simulation results corroborate our design approach. Owing its robust design, the architecture can contend for standardization in B5G system.