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Main Authors: Ji, Chenqing, Liu, Qionghui, Liu, Jiahong, Yu, Chao, Sun, Yifei, Wang, Rui, Liu, Fan
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2509.25732
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author Ji, Chenqing
Liu, Qionghui
Liu, Jiahong
Yu, Chao
Sun, Yifei
Wang, Rui
Liu, Fan
author_facet Ji, Chenqing
Liu, Qionghui
Liu, Jiahong
Yu, Chao
Sun, Yifei
Wang, Rui
Liu, Fan
contents In this paper, a multistatic Doppler sensing system is proposed for the drone tracking via downlink Long-Term Evolution (LTE) signals. Specifically, the LTE base stations (BSs) are exploited as signal illuminators, and three passive sensing receivers are deployed at different locations to detect the bistatic Doppler frequencies of a target drone from received downlink signals. It is shown that even without the measurements of BS-drone-receiver range and angle, the Doppler measurements could provide sufficient information for trajectory tracking. Particularly, the trajectory of the target drone, consisting of the initial position and velocities of all the time slots, can be reconstructed by solving a minimum mean-squared error problem according to the above Doppler measurements. It is demonstrated by experiment that although the target drone and all the sensing receivers are around 200 meters away from the illuminating BSs, the complicated trajectories can be tracked with 90% errors below 90 centimeters. Since this accuracy is notably higher than the typical range resolution of LTE signals, the demonstration shows that drone trajectory tracking with a high accuracy could be feasible solely according to Doppler detection, as long as the deployment density of receivers is sufficiently high.
format Preprint
id arxiv_https___arxiv_org_abs_2509_25732
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Doppler-Based Multistatic Drone Tracking via Cellular Downlink Signals
Ji, Chenqing
Liu, Qionghui
Liu, Jiahong
Yu, Chao
Sun, Yifei
Wang, Rui
Liu, Fan
Signal Processing
In this paper, a multistatic Doppler sensing system is proposed for the drone tracking via downlink Long-Term Evolution (LTE) signals. Specifically, the LTE base stations (BSs) are exploited as signal illuminators, and three passive sensing receivers are deployed at different locations to detect the bistatic Doppler frequencies of a target drone from received downlink signals. It is shown that even without the measurements of BS-drone-receiver range and angle, the Doppler measurements could provide sufficient information for trajectory tracking. Particularly, the trajectory of the target drone, consisting of the initial position and velocities of all the time slots, can be reconstructed by solving a minimum mean-squared error problem according to the above Doppler measurements. It is demonstrated by experiment that although the target drone and all the sensing receivers are around 200 meters away from the illuminating BSs, the complicated trajectories can be tracked with 90% errors below 90 centimeters. Since this accuracy is notably higher than the typical range resolution of LTE signals, the demonstration shows that drone trajectory tracking with a high accuracy could be feasible solely according to Doppler detection, as long as the deployment density of receivers is sufficiently high.
title Doppler-Based Multistatic Drone Tracking via Cellular Downlink Signals
topic Signal Processing
url https://arxiv.org/abs/2509.25732