The paper presents an in-depth exploration of beamspace modulation (BM) as a promising solution for addressing the challenges in near-field MIMO systems. Key highlights:
Near-field MIMO systems exhibit a notable augmentation in spatial DoFs compared to far-field MIMO, particularly as the distance between the transmitter and receiver decreases. This increase in spatial DoFs can be effectively leveraged to enhance spectral efficiency and system reliability.
BM strategically combines beamforming, spatial modulation, and spatial multiplexing to capitalize on the increased and dynamic spatial DoFs in near-field MIMO. Unlike traditional approaches that select only the best K spatial DoFs for transmission, BM exploits all possible combinations of DoFs, encoding additional information onto the beam hopping patterns.
Simulations demonstrate that BM consistently outperforms the conventional best beamspace selection (BBS) scheme in terms of spectral efficiency and symbol error rate (SER), particularly as the distance between the transceivers decreases. At a distance of 5 meters, BM achieves a two-order-of-magnitude reduction in SER compared to BBS.
The paper also delves into the key challenges associated with implementing BM in near-field MIMO, including the need for fast beam switching, the requirement for a sufficient number of receiving RF chains, and the security concerns related to interference leakage and eavesdropping.
The article concludes by outlining several promising future research directions, such as multi-user beamspace modulation, distance-aware beamspace modulation, compressed sensing-based detection methods, and codebook-based beamspace modulation. These advancements are crucial for further enhancing the performance and practicality of BM in near-field MIMO systems.
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