Measurement and System-level Evaluation of Inter-Sector Self-Interference on Full Duplex in mmWave Band

Measurement and System-level Evaluation of Inter-Sector Self-Interference on Full Duplex in mmWave Band

This paper emphasize the importance of the inter-sector self-interference (SI) cancellation to realize the full duplex (FD) for the practical three-sectored cell deployment scenario. We measure the inter-sector SI, the interference coming from the neighboring sector in the same site, using our FD en...

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Bibliographic Details
Published in:ICC 2022 - IEEE International Conference on Communications pp. 1112 - 1117
Main Authors: Kim, Sundo, Lee, Kwonjong, Bin, Yu, Qian, Chen, Jung, Jungsoo, Lee, Juho, Choi, Sunghyun
Format: Conference Proceeding
Language:English
Published: IEEE 16-05-2022
Subjects:
Conferences
cross-link interference
full duplex
Gain
Gain measurement
inter-sector self-interference
Interference cancellation
measurement
Prototypes
self-interference
Simulation
system-level evaluation
Throughput
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Summary:This paper emphasize the importance of the inter-sector self-interference (SI) cancellation to realize the full duplex (FD) for the practical three-sectored cell deployment scenario. We measure the inter-sector SI, the interference coming from the neighboring sector in the same site, using our FD enabled prototype testbed, and then we conduct the system-level simulation to validate the the impact of the inter-sector SI along with the intra-sector SI and cross link interference (CLI) in mmWave integrated access and backhaul (IAB) networks. From our extensive simulation results, the FD operation compared with the half duplex (HD) operation achieves throughput gain of 70% with inter-sector SI cancellation (SIC), while the FD operation achieves throughput gain of 20% without inter-sector SIC. Conclusively, the inter-sector SI should be effectively cancelled out to guarantee the meaningful FD gain over HD.
ISSN:1938-1883
DOI:10.1109/ICC45855.2022.9839075