Low-sidelobe wideband beamforming based on space-time structure

Chao Ren; Si Liang Wu; Ju Wang

Low-sidelobe wideband beamforming based on space-time structure

Chao Ren^*, Si Liang Wu, Ju Wang

^*Corresponding author for this work

School of Information and Electronics

Beijing Institute of Technology

Research output: Contribution to journal › Article › peer-review

Abstract

A new low-sidelobe beamforming algorithm based on space-time adaptive processing, which can be used in project easily, is proposed. Lots of jamming sources of different frequencies and different azimuths are simulated. The peak value of space-time 2-dimension beam pattern accords with the direction of the expected signal, and the low-sidelobes are also formed at different frequencies simultaneously. Otherwise, the space-time 2-dimension weight vector can be obtained with the product of a constant matrix and the steering vectors matrix of expected signals. It is convenient to be used in project for its easiness to calculate. The proposed algorithm is more efficient to suppress interference and noise. The simulation results show the effectiveness and stability of the method.

Original language	English
Pages (from-to)	414-417
Number of pages	4
Journal	Xi Tong Gong Cheng Yu Dian Zi Ji Shu/Systems Engineering and Electronics
Volume	30
Issue number	3
Publication status	Published - Mar 2008

Keywords

Beamforming
Interference suppression
Space-time adaptive processing
Steering vector

Cite this

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title = "Low-sidelobe wideband beamforming based on space-time structure",

abstract = "A new low-sidelobe beamforming algorithm based on space-time adaptive processing, which can be used in project easily, is proposed. Lots of jamming sources of different frequencies and different azimuths are simulated. The peak value of space-time 2-dimension beam pattern accords with the direction of the expected signal, and the low-sidelobes are also formed at different frequencies simultaneously. Otherwise, the space-time 2-dimension weight vector can be obtained with the product of a constant matrix and the steering vectors matrix of expected signals. It is convenient to be used in project for its easiness to calculate. The proposed algorithm is more efficient to suppress interference and noise. The simulation results show the effectiveness and stability of the method.",

keywords = "Beamforming, Interference suppression, Space-time adaptive processing, Steering vector",

author = "Chao Ren and Wu, {Si Liang} and Ju Wang",

year = "2008",

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T1 - Low-sidelobe wideband beamforming based on space-time structure

AU - Ren, Chao

AU - Wu, Si Liang

AU - Wang, Ju

PY - 2008/3

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N2 - A new low-sidelobe beamforming algorithm based on space-time adaptive processing, which can be used in project easily, is proposed. Lots of jamming sources of different frequencies and different azimuths are simulated. The peak value of space-time 2-dimension beam pattern accords with the direction of the expected signal, and the low-sidelobes are also formed at different frequencies simultaneously. Otherwise, the space-time 2-dimension weight vector can be obtained with the product of a constant matrix and the steering vectors matrix of expected signals. It is convenient to be used in project for its easiness to calculate. The proposed algorithm is more efficient to suppress interference and noise. The simulation results show the effectiveness and stability of the method.

AB - A new low-sidelobe beamforming algorithm based on space-time adaptive processing, which can be used in project easily, is proposed. Lots of jamming sources of different frequencies and different azimuths are simulated. The peak value of space-time 2-dimension beam pattern accords with the direction of the expected signal, and the low-sidelobes are also formed at different frequencies simultaneously. Otherwise, the space-time 2-dimension weight vector can be obtained with the product of a constant matrix and the steering vectors matrix of expected signals. It is convenient to be used in project for its easiness to calculate. The proposed algorithm is more efficient to suppress interference and noise. The simulation results show the effectiveness and stability of the method.

KW - Beamforming

KW - Interference suppression

KW - Space-time adaptive processing

KW - Steering vector

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JO - Xi Tong Gong Cheng Yu Dian Zi Ji Shu/Systems Engineering and Electronics

JF - Xi Tong Gong Cheng Yu Dian Zi Ji Shu/Systems Engineering and Electronics

IS - 3

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Low-sidelobe wideband beamforming based on space-time structure

Abstract

Keywords

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