Movable antenna (MA) technology, which can reconfigure wireless channels by flexibly moving antenna positions in a specified region, has great potential for improving communication performance. In this paper, we consider a new setup of MAs-enabled multicasting, where we adopt a simple setting in which a linear MA array-enabled source (S) transmits a common message to two single-antenna users U1 and U2. We aim to maximize the minimum rate among these two users, by jointly optimizing the transmit beamforming and antenna positions at S. Instead of utilizing the widely-used alternating optimization (AO) approach, we reveal, with rigorous proof, that the above two variables can be optimized separately: i) the optimal antenna positions can be firstly determined via the successive convex approximation technique, based on the rule of maximizing the correlation between S-U1 and S-U2 channels; ii) afterwards, the optimal closed-form transmit beamforming can be derived via simple arguments. Compared to AO, this new approach yields the same performance but reduces the computational complexities significantly. Moreover, it can provide insightful conclusions which are not possible with AO.
@article{arxiv.2405.04120,
title = {Movable Antennas-Enabled Two-User Multicasting: Do We Really Need Alternating Optimization for Minimum Rate Maximization?},
author = {Guojie Hu and Qingqing Wu and Donghui Xu and Kui Xu and Jiangbo Si and Yunlong Cai and Naofal Al-Dhahir},
journal= {arXiv preprint arXiv:2405.04120},
year = {2024}
}