Direction measurement method applicable to phase interference signal source under non stabilized noise background

A non-stationary noise and signal source technology, applied in the field of communication and radar, can solve the problems of large disturbance of noise eigenvalues, incomplete orthogonality of subspaces, and instability of noise space and time

Inactive Publication Date: 2008-03-26
INST OF RADAR & ELECTRONICS CONFRONTATION ARMY AIR FORCE EQUIP RES INST OF PLA +1
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Problems solved by technology

However, conventional spatial spectrum estimation algorithms (such as MUSIC, ESPRIT, ML, WSF, etc.) mostly assume that the array noise is Gaussian white noise or stationary correlated colored noise
However, in the actual environment, the noise is often unknown or time-varying, and non-stationary noise with unknown statistical properties (the noise covariance matrix is ​​a diagonal matrix of unknown unequal elements) often appears
For example, the inconsistency of the gain of each channel of the array element and the inconsistency of the internal noise of each channel will cause the output noise power of each channel to be different
In addition, for broadband signal

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  • Direction measurement method applicable to phase interference signal source under non stabilized noise background
  • Direction measurement method applicable to phase interference signal source under non stabilized noise background
  • Direction measurement method applicable to phase interference signal source under non stabilized noise background

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Embodiment Construction

[0035] In the present invention, the array covariance matrix is ​​firstly smoothed and preprocessed by using the forward and backward space smoothing technology, and then the generalized covariance matrix is ​​constructed. According to the subspace principle, the spectral estimation is performed on the generalized covariance matrix, and the mirror image false peak is identified, thereby obtaining the real DOA (DOA is Direction of Arrival, which is the direction of incidence of the source). The present invention realizes the direction finding principle of the coherent signal source under the unbalanced noise background:

[0036] (1) Construct forward spatial smoothing covariance matrix R f .

[0037] Using the translation invariance of the uniform linear array (ULA), the array is divided into L sub-arrays that overlap each other, and the number of array elements corresponding to each sub-array is m=N-L+1; respectively calculate the autocovariance matrix of the L sub-arrays , ...

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Abstract

This invention relates to a method for testing directions of coherent signal sources under non-stable noise background including: collecting data received by channels and storing them in an EMS memory of the system, making adaptive uniform process to data received by the channels to form an array covariance matrix, utilizing a forward space smooth technology to preprocess it smoothly to constitute a forward space smooth covariance matrix and utilizing a forward and backward space smooth technology to smoothly pre-process the matrix to constitute a generalized covariance matrix based on the covariance matrix and a conjugated matrix and carrying out spectrum estimation to the generalized matrix with a sub-space class algorithm to identify a real incident direction of image false peak and signal source and output the real direction of the estimated signal source.

Description

technical field [0001] The invention belongs to the field of radar and communication, and relates to a spatial spectrum estimation signal processing method in the field. Specifically, the invention relates to a direction finding method suitable for coherent information sources under the background of non-stationary noise. Background technique [0002] Spatial spectrum estimation is widely used in radar, sonar, communication, seismic exploration and other fields, and it is a key technology to improve the performance of parameter estimation. However, conventional spatial spectrum estimation algorithms (such as MUSIC, ESPRIT, ML, WSF, etc.) mostly assume that the array noise is Gaussian white noise or stationary correlated colored noise. However, in the actual environment, the noise is often unknown or time-varying, and the non-stationary noise with unknown statistical properties (the noise covariance matrix is ​​a diagonal matrix of unknown unequal elements) often appears. Fo...

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Application Information

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IPC IPC(8): H04B7/08G01S3/02G01S3/04
Inventor 齐崇英陈志杰张永顺韩颖
Owner INST OF RADAR & ELECTRONICS CONFRONTATION ARMY AIR FORCE EQUIP RES INST OF PLA
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