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High Precision Positioning using Multi-cell Massive MIMO system for 5G and beyond
Date Issued
13-09-2021
Author(s)
Singh, Vikram
Masal, Abhijeet Abhimanyu
Klutto Milleth, J.
Indian Institute of Technology, Madras
Abstract
The large number of antennas at the base stations (BSs), the reference signal transmission over a wide bandwidth, and dense network deployment can be used to achieve unprecedented position accuracy in 5G and beyond networks. This work proposes a position estimation method using a full dimension massive multiple-input multiple-output (MaMIMO) system in cellular networks. The user equipment (UE) estimates the time of flight/arrival (ToA) from multiple BSs using estimation of signal parameters via rotational invariant technique (ESPRIT). A novel method that selects a subset of the accurate ToA measurements and uses it to estimate the position of the target UE based on multilateration is proposed. The simulation results demonstrate that there is a significant improvement in positioning accuracy over the conventional methods, and the proposed method closely matches the genie-aided algorithm for small subsets, and outperforms it for large subsets. The proposed method achieves 20 cm positioning accuracy for 90% of the UEs in indoor factory (InF) scenarios using practical 3GPP channel models. It also satisfies the ITU requirement for Industry 4.0 and requires a low transmission and measurement overhead.
Volume
2021-September