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Novel robust self-adaptive wave beam forming method under DOA mismatch conditions

A technology of adaptive beam and mismatch conditions, applied in the field of radar, to achieve the effect of high computational efficiency, high signal-to-interference noise ratio, and improved detection performance

Active Publication Date: 2017-01-25
XIAN INSTITUE OF SPACE RADIO TECH
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However, when the power of the interferer is greater than that of the signal of interest, IRCB may converge to a steering vector for the interferer rather than the desired signal

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  • Novel robust self-adaptive wave beam forming method under DOA mismatch conditions
  • Novel robust self-adaptive wave beam forming method under DOA mismatch conditions
  • Novel robust self-adaptive wave beam forming method under DOA mismatch conditions

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[0031] The basic idea of ​​the present invention is: a new robust adaptive beamforming method under the condition of DOA mismatch, that is, a new robust adaptive beamforming method under the condition of severe DOA mismatch. The performance loss of array radar detection target when there is serious mismatch. The implementation steps are: 1. Obtain the column-orthogonal matrix U; 2. Obtain the rotation vector r; 3. Estimate the expected steering vector in the case of severe AOA mismatch; 4. Construct a robust beamforming based on the generalized rank signal model Method optimization problem; 5. Solve the optimal weight vector; the present invention first estimates the steering vector of the desired signal in a large uncertain set, and then uses the beamforming method based on the generalized rank signal model to obtain robustness against other types of mismatches , in the case of severe DOA mismatch, the shape of the main lobe can be achieved without losing the degree of freedo...

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Abstract

The invention discloses a novel robust self-adaptive wave beam forming method under DOA mismatch conditions, mainly solves problems of array radar target detection performance loss under serious mismatch of direction of arrival. The achieving steps are: 1. a orthogonal matrix U is obtained; 2. a rotating vector r is obtained; the expected steering vector is estimated under serious mismatch of direction of arrival conditions; 3. weighted vector under serious mismatch of direction of arrival is estimated; 4. a robust wave beam forming method optimization problem is formed based on a generalized rank signal model; 5. weighted vector is calculated, the novel robust self-adaptive wave beam forming method estimates the weighted vector of expected signal within large uncertain sets, then the robust wave beam forming method based on the generalized rank signal model is used to obtain the robustness to compete other types of mismatch, which can achieve the maintenance of main lobe under the premise of no losing degree of freedom under serious mismatch conditions and the higher output signal and interference to noise ratio is obtained to improve the performance of array radar during target object detection.

Description

technical field [0001] The invention belongs to the technical field of radar, and relates to a new robust adaptive beamforming method under the condition of DOA mismatch, that is, a new robust adaptive beamforming method under the condition of serious angle of arrival mismatch, and further relates to an array radar self-adaptive beamforming method. Adaptive signal processing techniques can be used for robust beamforming in case of severe DOA mismatch. Background technique [0002] The Capon beamformer is also called the minimum variance distortion-free response MVDR beamformer, which selects the weight vector by minimizing the output power of the array so that it is a constant in the irradiation direction. The standard Capon beamformer SCB is very sensitive to steering vector errors. Steering vector errors are caused by many reasons, such as DOA estimation errors and array element position disturbance errors. [0003] Some scholars proposed a robust beamforming method base...

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01S7/36
CPCG01S7/36
Inventor 王伟伟杨晓超段崇棣张欣李渝林晨晨杨旭
Owner XIAN INSTITUE OF SPACE RADIO TECH
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