Rotatable Antenna Enhanced Multicast Communication System
This work addresses fairness issues in multicast communication systems for users, but it is incremental as it builds on existing rotatable antenna technology with optimization methods.
The paper tackles the problem of fairness in downlink multi-group multicast communication by jointly optimizing beamforming vectors and rotatable antenna boresight directions to maximize the minimum SINR among users, resulting in substantial fairness performance enhancement compared to benchmarks.
Rotatable antenna (RA) provides additional spatial degrees of freedom (DoFs) for communication systems by enabling per-antenna dynamic boresight adjustment, which is attractive for fairness-oriented multicast transmission. This letter investigates an RA-enhanced downlink multi-group multicast system. Specifically, we aim to maximize the minimum signal-to-interference-plus-noise ratio (SINR) among all users by jointly optimizing the multicast beamforming vectors and the RA boresight directions under transmit power and rotation constraints. To solve this non-convex problem, we first reformulate the max-min SINR objective via quadratic transform. Then, we develop an alternating optimization (AO) algorithm that iteratively updates the multicast beamforming and RA boresight directions. The beamforming vectors are obtained from a convex subproblem, while the boresight directions are refined using a successive convex approximation (SCA) procedure. Simulation results verify that the proposed RA-based scheme substantially enhances the fairness performance compared with fixed antenna-based and random-orientation benchmarks.