Channel state information (CSI) is important to reap the full benefits of millimeter wave (mmWave) massive multiple-input multiple-output (MIMO) systems. The traditional channel estimation methods using pilot frames (PF) lead to excessive overhead. To reduce the demand for PF, data frames (DF) can be adopted for joint channel estimation and data recovery. However, the computational complexity of the DF-based methods is prohibitively high. To reduce the computational complexity, we propose a joint channel estimation and data recovery (JCD) method assisted by a small number of PF for mmWave massive MIMO systems. The proposed method has two stages. In Stage 1, differing from the traditional PF-based methods, the proposed PF-assisted method is utilized to capture the angle of arrival (AoA) of principal components (PC) of channels. In Stage 2, JCD is designed for parallel implementation based on the multi-user decoupling strategy. The simulation results show that the PF-assisted JCD method can achieve near the same performance as the Bayesian-optimal DF-based method, while greatly reducing the computational complexity.
A Sparsity-Exploiting Design for Joint Channel Estimation and Data Recovery in Millimeter Massive MIMO Systems
2024-10-07
1379262 byte
Conference paper
Electronic Resource
English