Detection method and system of polarization multiplexing microwave photon radar based on photon sampling

Abstract

The invention discloses a polarization multiplexing microwave photon radar detection method and system based on photon sampling. The signal is modulated to obtain the transmission modulated optical signal and the received modulated optical signal with the polarization state orthogonal. The transmitted modulated optical signal and the received modulated optical signal are combined into one polarization multiplexed optical signal and then divided into two channels. The two channels are respectively polarized and obtained Transmitting modulated optical signals and composite optical signals including transmitting modulated optical signals and receiving modulated optical signals, after performing photoelectric conversion and low-pass filtering on the composite optical signals, intermediate frequency signals can be obtained, and the intermediate frequency signals are processed to obtain detection target information. Through the photon sampling technology and the photon polarization multiplexing technology, the invention realizes the generation and reception of broadband and frequency band adjustable radar signals, and the radar system is compact and simple, and can be integrated.

Description

technical field [0001] The invention relates to a radar detection method, in particular to a microwave photon radar detection method and system using polarization multiplexing technology of photon sampling. Background technique [0002] With the development of emerging radar technology and the urgent need for new situational awareness, radar is developing in the direction of high-frequency, broadband, high-precision, real-time, multi-functional full-spectrum detection. In order to cover different spectrum spaces, the radar working band needs to be flexible and adjustable, and the signals can be processed and analyzed in real time. Limited by the bottleneck of current electronic broadband signal generation and processing technology, when functions such as signal generation, sampling, and processing are directly implemented in the microwave domain, the frequency and bandwidth are low, and the amplitude / phase response of the frequency mixing link is nonlinear. effect, and the ...

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Problems solved by technology

For example, the band-pass sampling based on photon technology can realize the sampling of microwave signals by using narrow pulses with high repetition frequency, and the related technology has been used in the new radar receiving technology ([P. Ghelfi, F. Laghezza, F. Scotti, D. Onori, A. Bogoni, "Photonics for Radars Operating on Multiple Coherent Bands," Journal of Lightwave Technology , vol. 34, no. 2, pp. 500-507, 2016.]), but in the current receiving scheme based on photon bandpass sampling, the optical pulse repetition frequency is small, which limits the acceptable signal bandwidth; and the transmission and reception Separation of modules increases the complexity of the entire system and reduces the stability of the system

In addition, when processing the sampled signal, a high-speed signal processor is still required, which limits the real-time performance of the entire system.

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