Reducing the Paging Overhead in Highly Directional Systems

TL;DR

This paper introduces a minimal feedback paging mechanism for highly directional systems that significantly reduces downlink paging overhead by activating only relevant beams, making it feasible for future high-frequency networks.

Contribution

It proposes a novel feedback-based paging method that minimizes beam activation, addressing the high overhead issue in millimeter-wave and terahertz systems.

Findings

Over 80% reduction in paging overhead for 64-beam systems.

Significant energy efficiency at the UE side.

Effective beam activation with minimal feedback.

Abstract

New Radio (NR) supports operations at high-frequency bands (e.g., millimeter-wave frequencies) by using narrow beam based directional transmissions to compensate high propagation losses at such frequencies. Due to the limited spatial coverage with each beam, the broadcast transmission of paging in NR is performed using beam sweeping, which takes multiple time slots. Thus, the paging procedure used in NR would substantially increase the downlink resource overhead of the network with directional transmissions. Such overhead would further increase as we move higher in the frequency bands, such as terahertz bands, which is being viewed as one of the potential candidates for future generation networks. Therefore, the NR based paging solution is infeasible for supporting highly directional systems. In this paper, we propose a novel minimal feedback enabled paging mechanism, which instead of using all the beams for paging transmissions, only activates sub-set of beams having one or more UEs under the coverage. UE presence indications are implemented to identify the correct set of beams to be activated. Our analytical analysis and simulations show that the proposed solution significantly reduces the downlink paging overhead compared to the NR based solution (e.g., more than 80% gain for a system supporting 64 number of beams at a UE density of 200 UEs per paging occasion) while incurring minimal energy cost at the UE side.