Eigenspace-Based Minimum Variance Adaptive Beamformer Combined with Delay Multiply and Sum: Experimental Study

机译：基于特征空间的最小方差自适应波束形成器与延迟乘和求和相结合：实验研究

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Delay and sum (DAS) is the most common beamforming algorithm in linear-array photoacoustic imaging (PAI) as a result of its simple implementation. However, it leads to a low resolution and high sidelobes. Delay multiply and sum (DMAS) was used to address the incapabilities of DAS, providing a higher image quality. However, the resolution improvement is not well enough compared to eigenspace-based minimum variance (EIBMV). In this paper, the EIBMV beamformer has been combined with DMAS algebra, called EIBMV-DMAS, using the expansion of DMAS algorithm. The proposed method is used as the reconstruction algorithm in linear-array PAI. EIBMV-DMAS is experimentally evaluated where the quantitative and qualitative results show that it outperforms DAS, DMAS and EIBMV. The proposed method degrades the sidelobes for about 365 %, 221 % and 40 %, compared to DAS, DMAS and EIBMV, respectively. Moreover, EIBMV-DMAS improves the SNR about 158 %, 63 % and 20 %, respectively.

机译：由于其简单的实现，延迟和和（DAS）是线性阵列光声成像（PAI）中最常见的波束形成算法。然而，这导致低分辨率和高旁瓣。延迟乘法和求和（DMAS）用于解决DAS的功能不足，从而提供更高的图像质量。但是，与基于本征空间的最小方差（EIBMV）相比，分辨率的改善还不够好。本文通过扩展DMAS算法，将EIBMV波束形成器与DMAS代数（称为EIBMV-DMAS）相结合。该方法被用作线性阵列PAI的重建算法。对EIBMV-DMAS进行了实验评估，定量和定性结果表明它优于DAS，DMAS和EIBMV。与DAS，DMAS和EIBMV相比，所提出的方法分别将旁瓣降低了365％，221％和40％。此外，EIBMV-DMAS分别将SNR提高了约158％，63％和20％。

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《Conference on Photonics in Dermatology and Plastic Surgery》|2018年|1046717.1-1046717.6|共6页
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Moein Mozaffarzadeh; Ali Mahloojifar; Mohammadreza Nasiriavanaki; Mahdi Orooji;
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Photoacoustic imaging; beamforming; delay multiply and sum; eigenspace-based minimum variance; linear-array imaging;

机译：光声成像;波束成形延迟乘法和求和;基于特征空间的最小方差;线性阵列成像;

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2. Short-lag spatial coherence combined with eigenspace-based minimum variance beamformer for synthetic aperture ultrasound imaging [J] . Yuanguo Wang, Chichao Zheng, Hu Peng, Computers in Biology and Medicine . 2017,第期

机译：基于EIGenspace的基于截止值超声成像的短滞空隙相干性
3. Eigenspace-based minimum variance beamformer combined with Wiener postfilter for medical ultrasound imaging [J] . Zeng X., Chen C., Wang Y. Ultrasonics . 2012,第8期

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4. Eigenspace-Based Minimum Variance Adaptive Beamformer Combined with Delay Multiply and Sum: Experimental Study [C] . Moein Mozaffarzadeh, Ali Mahloojifar, Mohammadreza Nasiriavanaki, SPIE Conference on Photonics in Dermatology and Plastic Surgery . 2018

机译：基于EIGENSPACE的最小方差自适应波束形成器与延迟倍增和总和相结合：实验研究
5. Modulo Multipliers with Adaptive Delay for a High Dynamic Range Residue Number System Using Booth Encoding. [D] . Reddy, Ginni Sumanth. 2017

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6. Lag-Based Filtered-Delay Multiply and Sum Beamformer Combined with Two Phase-Related Factors for Medical Ultrasound Imaging [O] . Ke Song, Paul Liu, Dong C. Liu 2020

机译：基于滞后的滤波延迟乘法和总和波束形成器与医疗超声成像的两个相位相关因素相结合
7. Eigenspace-Based Minimum Variance Adaptive Beamformer Combined with Delay Multiply and Sum: Experimental Study [O] . Mozaffarzadeh, Moein, Mahloojifar, Ali, Nasiriavanaki, Mohammadreza, 2017

机译：基于特征空间的最小方差自适应波束形成器延迟乘法和求和：实验研究

Eigenspace-Based Minimum Variance Adaptive Beamformer Combined with Delay Multiply and Sum: Experimental Study

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