Title :
Low-Complexity Joint Antenna Tilting and User Scheduling for Large-Scale ZF Relaying
Author :
Haijing Liu ; Hui Gao ; Cong Zhang ; Tiejun Lv
Author_Institution :
Beijing Univ. of Posts & Telecommun., Beijing, China
Abstract :
In this letter, we jointly design relay antenna tilting with user scheduling so as to enhance the sum rate performance of a two-hop relay system, where the relay is equipped with a large-scale antenna array and performs zero-forcing processing. Building the fundamental of the joint design, a tight and tractable sum rate approximation is first derived by employing random matrix theory. Then the relay antenna downtilt and the number of active user pairs are jointly optimized to maximize the approximate sum rate. It is noted that the proposed scheme is independent of instantaneous channel state information. Therefore, it enjoys very low implementation complexity while improving the system performance.
Keywords :
antenna arrays; approximation theory; computational complexity; matrix algebra; optimisation; relay networks (telecommunication); scheduling; channel state information; large-scale ZF relaying; large-scale antenna array; low implementation complexity; low-complexity joint antenna tilting; random matrix theory; relay antenna downtilt; sum rate performance; tractable sum rate approximation; two-hop relay system; user scheduling; zero-forcing processing; Antenna arrays; Approximation methods; Arrays; Joints; Relays; Vectors; Antenna tilting; large-scale antenna array; two-hop relay; user scheduling; zero-forcing;
Journal_Title :
Signal Processing Letters, IEEE
DOI :
10.1109/LSP.2014.2360521
