Millimeter Wave Multi-mode OAM-MIMO Channel Capacity Study
DOI: https://doi.org/10.62517/jbdc.202401206
Author(s)
Li Zhangyong
Affiliation(s)
Chongqing College of Electronic Engineering, Chongqing, China
Abstract
This study examines the theoretical aspects of channel capacity for millimeter wave multi-mode Orbital Angular Momentum (OAM) Multiple Input Multiple Output (MIMO) systems. It begins with a theoretical analysis of these channels, highlighting their importance and potential applications in wireless communications. A Sparse Bayesian Learning (SBL) based Joint Uplink and Downlink Channel Estimation (JUDCE) approach is then employed to estimate the downlink channel using uplink training signals, while accounting for inactive receiving antennas. Exploiting the sparsity of millimeter wave channels, the downlink channel estimation is modeled as a compressed sensing problem using a binary mask matrix. An SBL framework is developed to efficiently tackle this problem. Theoretical and simulation results indicate the proposed method significantly improves channel estimation accuracy and spectral efficiency of downlink transmissions, underscoring its importance for the advancement of future communication technologies.
Keywords
Millimeter Wave; Multi-mode OAM-MIMO Channels; Channel Capacity; Sparse Bayesian Learning; Joint Uplink-downlink Channel Estimation
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