On the Mobility Analysis of UE-Side Beamforming for Multi-Panel User Equipment in 5G-Advanced

• Published in: 2023 IEEE 34th Annual International Symposium on Personal, Indoor and Mobile Radio Communications (PIMRC) pp. 1 - 7
• Main Authors: Bin Iqbal, Subhyal, Nadaf, Salman, Karabulut, Umur, Schulz, Philipp, Prado, Anna, Fettweis, Gerhard P., Kellerer, Wolfgang
• Format: Conference Proceeding
• Language: English
• Published: IEEE 05.09.2023
• Subjects: 5G mobile communication; 5G-Advanced; Array signal processing; Diffraction; frequency range 2 (FR2); Handover; handover failures (HOFs); mobility performance; multi-panel user equipment (MPUE); radio link failures (RLFs); Radio links; system-level simulation; UE-side Rx-beamforming; Urban areas; Velocity measurement
• ISSN: 2166-9589
• DOI: 10.1109/PIMRC56721.2023.10294004

Frequency range 2 (FR2) has become an integral part of 5G networks to fulfill the ever-increasing demand for data hungry-applications. However, radio signals in FR2 experience high path and diffraction loss, which also pronounces the problem of inter and intra-cell interference. As a result, both the serving and target links are affected, leading to radio link failures (RLFs) and handover failures (HOFs), respectively. To address this issue, multi-panel user equipment (MPUE) is proposed for 5G-Advanced whereby multiple spatially distinct antenna panels are integrated into the UE to leverage gains from antenna directivity. It also opens the possibility of using UE-side Rx-beamforming for each panel. In this paper, three different Rx-beamforming approaches are proposed to improve the serving link, the target link, and the handover process for an MPUE equipped with three directional panels. Thereafter, the mobility performance is analyzed in a system-level simulation for a multi-beam FR2 network. Results have shown that the proposed schemes can help reduce RLFs by 53% and HOFs by 90%.