In finite scattering propagation environment, when the number of scatterers is very small compared to the number of base station antennas and users in the cell and if the same… Click to show full abstract
In finite scattering propagation environment, when the number of scatterers is very small compared to the number of base station antennas and users in the cell and if the same scatterers are shared by all users, then the correlation among the users increases. Hence, the high-dimensional multi-user MIMO system is likely to have low-rank channel. To estimate the channel matrix, weighted nuclear norm minimization method is proposed in this paper. Iterative weighted singular value thresholding algorithm is used to solve the optimization problem. To recover the low-rank channel, a partial random Fourier matrix (PRFM) satisfying the restricted isometric property is adapted as the training matrix. The PRFM forces the iterative algorithm to converge in one iteration which reduces the huge computational complexity of the proposed channel estimation method. The mean square error and achievable sum rate are the criteria used to measure the performance of the proposed method. The results show that the proposed method outperforms the least square estimation method and the nuclear norm minimization method for various finite scatterers in different SNR levels.
               
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