Qinglin Zhu scite author profile

Qinglin Zhu

4Publications

1Citation Statement Received

61Citation Statements Given

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Computerized Ionospheric Tomography Based on the ADS-B System

Yuan

Zhu²,

Wang³

et al. 2023

Atmosphere

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The broadcast automatic dependent surveillance (ADS-B) system is a new-generation air traffic control system designed to avoid the waste of resources in secondary radars. The establishment of the spaceborne ADS-B system provides a broad prospect for ionospheric tomography. In this paper, the external observation information of the ionosphere is obtained by measuring the Faraday rotation angle, that is, the total electron content (TEC). Tomography research can be carried out all over the world to conduct large-scale ionospheric electron density research. The experiment selected two different regions and had a time resolution of two hours, a height resolution of 200 km, a latitude resolution of 2°, and a longitude resolution of 5°. Based on the simulated spaceborne ADS-B signal to invert the regional ionospheric electron density, the latitude, longitude, and height distributions of inversion result are basically consistent with those of the actual ionospheric electron density.

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Research on Real Time Reconstruction Technology of Regional Ionospheric Model with GNSS Data Integrated

Liu

Wang

Zhang³

et al. 2022

Journal of Spatial Science

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Statistical Characteristics of Ionospheric Scintillation in China Based on the Data of GNSS during 24th Solar Cycle

Liu¹,

Sheng²,

Shuji³

et al. 2021

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Comparison of Simulated and Measured Power of the Earth-Space Link for Satellite-Based AIS Signals

Yuan

Sun²,

Zhu³

et al. 2023

Sensors

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This research aims to analyze the impact of the Earth-Space link on the Automatic Identification System (AIS) signals of ships. To achieve this, we established a simulation system that measures the receiving power of AIS signals via satellite platforms. We validated the system by utilizing observation data from Tiantuo-5. Through this simulation, we quantitatively analyzed the effects of ionospheric TEC (Total Electron Content) and space loss on the received power. During the processing of observation data, we construct a geometric propagation model utilizing the measured positions of both the satellite and the ship. We then calculate the antenna gain and remove any system errors. Additionally, we eliminate the deviation of elevation and azimuth angles caused by satellite motion. This allows us to determine the actual power of different ships reaching the receiving platform. Upon comparing the measured power data with the simulated power, it was noted that both exhibited an increasing trend as the elevation angle increased. This led to an RMSE (Root Mean Square Error) result of approximately one, indicating the accuracy of the simulation system. These findings hold significant implications for analyzing interference factors in satellite-ground links.

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Qinglin Zhu

Computerized Ionospheric Tomography Based on the ADS-B System

Research on Real Time Reconstruction Technology of Regional Ionospheric Model with GNSS Data Integrated

Statistical Characteristics of Ionospheric Scintillation in China Based on the Data of GNSS during 24th Solar Cycle

Comparison of Simulated and Measured Power of the Earth-Space Link for Satellite-Based AIS Signals

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