Robust Concentric Circular Antenna Array with Variable Loading Technique in the Presence of Look Direction Disparity
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TLDR
The proposed robust CCAA beamformer enhances the output power 28.9 dB, 9.34 dB and 1.63 dB at 1◦ disparity angle in comparison to the CCAA standard capon beamformer, robust SCB and existing novel loading technique.Abstract:
The performance of a Concentric Circular Antenna Array (CCAA) is presented in this paper with variable loading technique. A CCAA geometry is chosen because of its symmetrical configuration which enables the phased array antenna to scan azimuthally with minimal changes in its beam width and side-lobe levels. The performance of CCAA system is degraded, if any disparity occurs between the original signal direction and the steering direction of the beamformer. This performance degradation problem due to look direction disparity can be improved by using robust techniques. This paper proposes a technique, named variable diagonal loading (VDL) technique for CCAA system and compares the performance of the proposed robust CCAA processor with existing CCAA processors. The proposed robust CCAA beamformer enhances the output power 28.9 dB, 9.34 dB and 1.63 dB at 1◦ disparity angle in comparison to the CCAA standard capon beamformer (SCB), robust SCB and existing novel loading technique. Numerical examples are presented to analyze the performance of the proposed robust beamformer in different scenarios.read more
Citations
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Journal ArticleDOI
Robust Centered Element Concentric Circular Antenna Array with Low Side Lobe Using Variable Loading and Tapering Windows in the Presence of Array Imperfections
TL;DR: In this article, a centered element concentric circular antenna array (CECCAA) using variable diagonal loading (VDL) technique and different filtering windows was proposed to detect and attenuate the directional interferences.
Proceedings ArticleDOI
Performance Analysis of Uniform Concentric Circular Antenna Array Beamformer Using Different DOA Estimation Technique
TL;DR: This paper first compares the performance of CCAA beamformer with Uniform Circular Array (UCA) using Multiple Signal Classification (MUSIC), Minimum Variance Distortion less Response (MVDR) and Beamscan DOA estimation techniques and it is observed that MUSIC algorithm offers better performance for CCAA structure.
Journal ArticleDOI
Variable Diagonal Loading Based Robust Concentric Hexagonal Antenna Array with Low Side Lobe Level Using Tapering Windows
TL;DR: In this paper, the performance of a concentric hexagonal antenna array (CHAA) is investigated with the exploitation of a robust variable diagonal loading (VDL) technique in the presence of direction of arrival (DOA) mismatch.
Proceedings ArticleDOI
Linearly-arranged Concentric Circular Antenna Array Using Robust VDL technique
TL;DR: The Linearly-arranged Concentric Circular Antenna Array beamformer is proposed and it is observed that using robust techniques, the proposed structure provides superior performance as compared to a conventional technique by reducing sidelobe level, beamwidth, and the low possibility to receive false signals.
References
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TL;DR: A new approach to robust adaptive beamforming in the presence of an arbitrary unknown signal steering vector mismatch is developed based on the optimization of worst-case performance.
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On robust Capon beamforming and diagonal loading
TL;DR: It is shown that a natural extension of the Capon beamformer to the case of uncertain steering vectors also belongs to the class of diagonal loading approaches, but the amount of diagonalloading can be precisely calculated based on the uncertainty set of the steering vector.
Proceedings ArticleDOI
On robust Capon beamforming and diagonal loading
TL;DR: This paper shows that a natural extension of the Capon beamformer to the case of uncertain steering vectors also belongs to the class of diagonal loading approaches but the amount of diagonalloading can be precisely calculated based on the uncertainty set of the steering vector.
Journal ArticleDOI
Robust Adaptive Beamforming Based on Interference Covariance Matrix Reconstruction and Steering Vector Estimation
Yujie Gu,Amir Leshem +1 more
TL;DR: Simulation results demonstrate that the performance of the proposed adaptive beamforming algorithm is almost always close to the optimal value across a wide range of signal to noise and signal to interference ratios.