Due to the interference coexistence between IMT-2020 system and radio locating radar system in the 3 400 ∼3 600 MHz frequency band, based on the coexistence scenario of this frequency band, this paper sorts out the typical frequency parameters of radar and the key parameters of base station, and establishes a propagation model. The interference between IMT-2020 system and radar system in the same frequency band is analyzed by means of system modeling and Monte Carlo simulation. According to the interference threshold of the system, the interval distance required for the coexistence of the two systems is obtained, and the interference avoidance measures are proposed to realize the coexistence of the two systems.

Interference Coexistence Analysis Between IMT-2020 System and Radar in the Same Frequency Band

Given the interference between public mobile communication system and S-band radars, an applicable interference analysis model was established, the typical frequency parameters of radar and the key parameters of the base station were sorted out, the radiation parameters of the mobile terminal (MT) were tested practically, and the interferences of the base station and MT to radar were calculated. Further, the Monte Carlo method was taken to simulate the system-level lumped interference of the communication system to radar, and an analysis was made on the influence of the communication system on the frequency of radar. The results revealed that the public mobile communication system had severe lumped interference with radar, which may affect radar frequency. Therefore, it is necessary to take measures to protect radar.

https://doi.org/10.1088/1742-6596/2196/1/012031

Influence of Public Mobile Communication System on the Frequency of S-Band Radars

Resolution Band Width (RBW) represents the 3 dB bandwidth of the internal IF filter of the spectrum analyzer, the setting of which greatly affects the clarity of the output spectrum line of the spectrum analyzer. Its reasonable value is essential to correctly distinguish the signals of different frequencies, especially in the case of aliasing of the output spectrum. Thus, it is of great significance to study the relationship between the setting of RBW and the output spectrum. Due to the expensive spectrum analyzer, the RBW adjustment range, frequency range and output accuracy are limited, so this paper will apply an economic, RBW arbitrary adjustable, high accuracy equivalent convolution method for the simulation of the RBW parameters of the spectrum analyzer, and evaluate the effect of RBW and filter type on the degree of output spectrum aliasing based on a typical equal-amplitude two-tone signal input, and finally give setting suggestions on RBW and filter type.

https://doi.org/10.1088/1742-6596/2196/1/012032

Simulation Analysis of RBW Parameters of Spectrum Analyzer Based on Convolution Approach

Based on new signal generation technologies such as vector signal modulation and arbitrary waveform editing and playback, the transmitter resources are multiplexed by each signal component at the same time or sharing time to generate flexible and dense composite signals and solve the problem of complex electromagnetic environment construction under the limited hardware.

Research on the Construction Method in Complex Electromagnetic Environment Based on Composite Signal

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Papers

Interference Coexistence Analysis Between IMT-2020 System and Radar in the Same Frequency Band

Influence of Public Mobile Communication System on the Frequency of S-Band Radars

Simulation Analysis of RBW Parameters of Spectrum Analyzer Based on Convolution Approach

Research on the Construction Method in Complex Electromagnetic Environment Based on Composite Signal