Multi-parameter combined estimation method based on bi-static FDA-MIMO radars
A joint estimation, multi-parameter technology, applied in the direction of reflection/re-radiation of radio waves, utilization of re-radiation, measurement devices, etc., can solve problems such as distance estimation and velocity estimation ambiguity
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Embodiment 1
[0058] Embodiment one, see Figure 1~2 As shown, a multi-parameter joint estimation method based on bistatic FDA-MIMO radar includes the following steps:
[0059] Step 1. Utilize the waveform diversity characteristic to design the transmission signal, and obtain the transmission waveform related to DOD and distance information according to the frequency increment Δf of the transmission signal carrier, so as to ensure that the DOD and distance information can be decoupled during the parameter estimation process;
[0060] Step 2, performing matched filtering, vectorization and spatial smoothing processing on the received transmitted waveform signal to obtain a full-rank signal covariance matrix;
[0061] Step 3. Based on the signal covariance matrix, the ESPRIT algorithm is used to estimate the joint steering vector;
[0062] Step 4, using the joint steering vector to estimate DOA and velocity parameters, and decoupling and parameter estimation of DOD and distance information; ...
Embodiment 2
[0066] Embodiment two, see Figure 1~6 As shown, a multi-parameter joint estimation method based on bistatic FDA-MIMO radar includes the following content:
[0067] Step 1. Based on the bistatic MIMO radar composed of M transmit array elements and N receive array elements, the transmit signal is designed using the waveform diversity feature, and the transmit waveform related to DOD and distance information is obtained according to the frequency increment Δf of the transmit signal carrier , in order to solve the coupling problem of DOD and distance information, the radar transmitting array is divided into two sub-arrays with the center of the array as the reference point. The launch steering vector for is:
[0068] Among them, θ p and R p are the target DOD and DOA, respectively, d t is the distance between the transmitting antennas, d r is the distance between receiving antennas, λ is the signal wavelength, c is the speed of light, v is the target speed, R p is the sum...
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