Caijin Lin scite author profile

Terahertz (THz) communication is envisioned as a key technology for next-generation ultra-high-speed wireless systems. In this paper, we study an indoor multi-user THz communication system with multiple antenna subarrays. To capture the distance-frequency dependent characteristics of THz channels, we design a hybrid beamforming scheme with distanceaware multi-carrier transmission, including analog beamforming for user grouping and interference cancellation in radio frequency (RF) domain and digital beamforming with dynamically selected subarrays at baseband. Specifically, an adaptive power allocation and low-complexity antenna subarray selection policy is developed to serve different users at different distances and reduce the cost of active RF circuits simultaneously, where two greedy subarray selection algorithms are proposed. The effectiveness of the proposed adaptive hybrid beamforming and antenna subarray selection algorithms is verified through simulation results, which achieves significant gains over other nonadaptive and non-distance-aware schemes.

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Subarray-Based Coordinated Beamforming Training for mmWave and Sub-THz Communications

Lin

Wang

2017

IEEE J. Select. Areas Commun.

129

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Caijin Lin

Terahertz Communications: An Array-of-Subarrays Solution

Energy-Efficient Design of Indoor mmWave and Sub-THz Systems with Antenna Arrays

Indoor Terahertz Communications: How Many Antenna Arrays Are Needed?

Adaptive Beamforming With Resource Allocation for Distance-Aware Multi-User Indoor Terahertz Communications

Subarray-Based Coordinated Beamforming Training for mmWave and Sub-THz Communications

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