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Main Authors: Zhou, Yuyan, Hua, Haocheng, Xu, Jie, Zhang, Rui
Format: Preprint
Published: 2026
Subjects:
Online Access:https://arxiv.org/abs/2601.13064
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author Zhou, Yuyan
Hua, Haocheng
Xu, Jie
Zhang, Rui
author_facet Zhou, Yuyan
Hua, Haocheng
Xu, Jie
Zhang, Rui
contents This letter proposes a hybrid mechanically and electronically tunable six-dimensional movable antenna (6DMA) base station (BS) architecture for future wireless communication networks. Such BS consists of multiple antenna arrays that are mechanically movable along a circular rail to adapt to the horizontal user hotspots, and each array is equipped with pattern reconfigurable antennas (PRAs) that are capable of electronically switching among a set of specified beam patterns to cater to the instantaneous user channels. The mechanical adjustment provides wide-angle coverage but suffers from slow response, while the electronic tuning enables rapid beam reconfiguration but with limited angular range. To effectively combine their complementary advantages, we propose to jointly design both mechanical and electronic configurations to maximize the average sum-rate of users via a two-timescale optimization approach, in which the array positions are optimized on the long timescale according to large-scale user distribution statistics, and the pattern selection vectors are optimized on the short timescale to enable fast beam alignment based on the instantaneous user locations. An alternating optimization algorithm based on the Monte Carlo sampling method is developed to solve the problem efficiently. Finally, simulation results show that our proposed design achieves significant performance gains over various benchmark schemes.
format Preprint
id arxiv_https___arxiv_org_abs_2601_13064
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Two-timescale Optimization for Hybrid Mechanically and Electronically Tunable 6DMA Aided Communication
Zhou, Yuyan
Hua, Haocheng
Xu, Jie
Zhang, Rui
Information Theory
This letter proposes a hybrid mechanically and electronically tunable six-dimensional movable antenna (6DMA) base station (BS) architecture for future wireless communication networks. Such BS consists of multiple antenna arrays that are mechanically movable along a circular rail to adapt to the horizontal user hotspots, and each array is equipped with pattern reconfigurable antennas (PRAs) that are capable of electronically switching among a set of specified beam patterns to cater to the instantaneous user channels. The mechanical adjustment provides wide-angle coverage but suffers from slow response, while the electronic tuning enables rapid beam reconfiguration but with limited angular range. To effectively combine their complementary advantages, we propose to jointly design both mechanical and electronic configurations to maximize the average sum-rate of users via a two-timescale optimization approach, in which the array positions are optimized on the long timescale according to large-scale user distribution statistics, and the pattern selection vectors are optimized on the short timescale to enable fast beam alignment based on the instantaneous user locations. An alternating optimization algorithm based on the Monte Carlo sampling method is developed to solve the problem efficiently. Finally, simulation results show that our proposed design achieves significant performance gains over various benchmark schemes.
title Two-timescale Optimization for Hybrid Mechanically and Electronically Tunable 6DMA Aided Communication
topic Information Theory
url https://arxiv.org/abs/2601.13064