Block-Dominant Compressed Sensing for Near-Field Communications: Fundamentals, Solutions and Future Directions

Near-field (NF) communications draw much attention in the context of extremely large-scale antenna arrays (ELAA). Owing to a large number of antennas and high carrier frequency, the NF coverage distance is quite substantial, where the electromagnetic radiation propagates by spherical waves, in contrast to the conventional planar waves of the far-field. Motivated by these facts, the block-dominant compressed sensing (BD-CS) assisted NF communications are proposed. Specifically, we elucidate why block sparsity exists in the distance-limited NF region. Then, block-dominant side-information (BD-SI) is introduced in support of the actual NF communication implementation. We validate that BD-CS is capable of providing exceptional channel estimation accuracy and high spectral efficiency, where the associated challenges, opportunities and its actual implementation in NF communications need to be carefully addressed.