Wideband Echo Doppler and Time Delay Estimation Method Based on Sigmoid Transform in Impulsive Noise Environment

A technology of impact noise and time delay estimation, which is applied to radio wave measurement systems, instruments, etc., and can solve problems such as failure, large amount of calculation, and performance degradation
CN108333568BActive Publication Date: 2021-10-22DALIAN UNIV
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Patent Information

Authority / Receiving Office
CN · China
Patent Type
Patents(China)
Current Assignee / Owner
DALIAN UNIV
Publication Date
2021-10-22

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Abstract

Aiming at the failure of the fractional-order Fourier transform algorithm in the impulsive noise environment, the present invention utilizes a nonlinear transform-Sigmoid transform to suppress the interference of the impulsive noise, and utilizes the energy aggregation characteristics of the fractional-order Fourier transform to propose a A new method for joint estimation of Doppler frequency shift spread factor and time delay for LFM pulsed radar. First, the Sigmoid transform is combined with the fractional Fourier transform, and a sigmoid-based fractional Fourier transform (Sigmoid‑FRFT) is proposed. Next, the joint estimation of Doppler frequency shift spreading factor and time delay is realized by Sigmoid‑FRFT peak point search. This method does not require prior knowledge of noise, and has strong tolerance to noise with low signal-to-noise ratio. Experimental results show that the method has higher parameter estimation accuracy and lower computational complexity under impulse noise.
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Description

technical field

[0001] The invention belongs to the field of communication and information systems, and in particular relates to a joint estimation of LFM pulse radar broadband echo Doppler and time delay based on Sigmoid transformation in an impact noise environment. Background technique

[0002] Pulse radar uses a linear frequency modulation (LFM) signal with a large time-width-bandwidth product to increase the detection distance while ensuring high resolution. Estimation of Doppler frequency shift and multipath time delay of LFM pulsed radar echo signal is a hot issue in radar and sonar signal processing. LFM is insensitive to Doppler frequency shift, has a large time-width product, and can effectively increase the detection distance while ensuring high resolution. It is one of the most commonly used signal forms in current pulse compression system radars, so its parameters It is estimated that it is a hot topic in radar signal processing. At present, scholars have done...

Claims

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