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Autori principali: Jiang, Qingji, jin, Jing, Wang, Qixing, Tang, Yuanyuan, Cao, Yang, Kuang, Bin, Dong, Jing, Lv, Siying, Wang, Dongming, Huang, Yongming, Wang, Jiangzhou, You, Xiaohu
Natura: Preprint
Pubblicazione: 2026
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Accesso online:https://arxiv.org/abs/2601.14648
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author Jiang, Qingji
jin, Jing
Wang, Qixing
Tang, Yuanyuan
Cao, Yang
Kuang, Bin
Dong, Jing
Lv, Siying
Wang, Dongming
Huang, Yongming
Wang, Jiangzhou
You, Xiaohu
author_facet Jiang, Qingji
jin, Jing
Wang, Qixing
Tang, Yuanyuan
Cao, Yang
Kuang, Bin
Dong, Jing
Lv, Siying
Wang, Dongming
Huang, Yongming
Wang, Jiangzhou
You, Xiaohu
contents Phase synchronization among distributed transmission reception points (TRPs) is a prerequisite for enabling coherent joint transmission and high-precision sensing in millimeter wave (mmWave) cell-free massive multiple-input and multiple-output (MIMO) systems. This paper proposes a bidirectional calibration scheme and a calibration coefficient estimation method for phase synchronization, and presents a calibration coefficient phase tracking method using unilateral uplink/downlink channel state information (CSI). Furthermore, this paper introduces the use of reciprocity calibration to eliminate non-ideal factors in sensing and leverages sensing results to achieve calibration coefficient phase tracking in dynamic scenarios, thus enabling bidirectional empowerment of both communication and sensing. Simulation results demonstrate that the proposed method can effectively implement reciprocal calibration with lower overhead, enabling coherent collaborative transmission, and resolving non-ideal factors to acquire lower sensing error in sensing applications. Experimental results show that, in the mmWave band, over-the-air (OTA) bidirectional calibration enables coherent collaborative transmission for both collaborative TRPs and collaborative user equipments (UEs), achieving beamforming gain and long-time coherent sensing capabilities.
format Preprint
id arxiv_https___arxiv_org_abs_2601_14648
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Experimental Performance of Bidirectional Phase Coherent Transmission and Sensing for mmWave Cell-free Massive MIMO Systems with Reciprocity Calibration
Jiang, Qingji
jin, Jing
Wang, Qixing
Tang, Yuanyuan
Cao, Yang
Kuang, Bin
Dong, Jing
Lv, Siying
Wang, Dongming
Huang, Yongming
Wang, Jiangzhou
You, Xiaohu
Signal Processing
Phase synchronization among distributed transmission reception points (TRPs) is a prerequisite for enabling coherent joint transmission and high-precision sensing in millimeter wave (mmWave) cell-free massive multiple-input and multiple-output (MIMO) systems. This paper proposes a bidirectional calibration scheme and a calibration coefficient estimation method for phase synchronization, and presents a calibration coefficient phase tracking method using unilateral uplink/downlink channel state information (CSI). Furthermore, this paper introduces the use of reciprocity calibration to eliminate non-ideal factors in sensing and leverages sensing results to achieve calibration coefficient phase tracking in dynamic scenarios, thus enabling bidirectional empowerment of both communication and sensing. Simulation results demonstrate that the proposed method can effectively implement reciprocal calibration with lower overhead, enabling coherent collaborative transmission, and resolving non-ideal factors to acquire lower sensing error in sensing applications. Experimental results show that, in the mmWave band, over-the-air (OTA) bidirectional calibration enables coherent collaborative transmission for both collaborative TRPs and collaborative user equipments (UEs), achieving beamforming gain and long-time coherent sensing capabilities.
title Experimental Performance of Bidirectional Phase Coherent Transmission and Sensing for mmWave Cell-free Massive MIMO Systems with Reciprocity Calibration
topic Signal Processing
url https://arxiv.org/abs/2601.14648