A sub-nyquist analog front-end with subarray beamforming for ultrasound imaging

机译：具有超声成像子阵列的亚奈奎斯特模拟前端

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Traditional ultrasound imagers suffer from a large data rate between their analog-to-digital converter (ADC) front-end and digital beamforming backend. This high aggregate data rate (typically exceeding 30 Gb/s) is holding back the design of imagers with high transducer counts, such as 2D imaging arrays. Prior work has demonstrated sub-Nyquist sampling techniques in software, which take advantage of the low innovation rate to sample well below the physical bandwidth of the signal. This work demonstrates a PCB-based hardware implementation of a 32-channel analog front-end (AFE) employing sub-Nyquist sampling. We additionally demonstrate a mixer-based subarray beamforming technique that exploits the narrowband nature of the receiver to beamform received signals prior to digitization. Together, these techniques reduce the aggregate data rate by a factor of 43x when compared to a conventional system.

机译：传统的超声成像仪在其模数转换器（ADC）前端和数字波束成形后端之间的数据速率过高。如此高的聚合数据速率（通常超过30 Gb / s）阻碍了具有高换能器数量的成像器（例如2D成像阵列）的设计。先前的工作已经演示了软件中的次奈奎斯特采样技术，该技术利用低创新率来在远低于信号物理带宽的条件下进行采样。这项工作演示了采用亚奈奎斯特采样的32通道模拟前端（AFE）的基于PCB的硬件实现。我们还演示了基于混合器的子阵列波束成形技术，该技术利用接收器的窄带特性在数字化之前对接收到的信号进行波束成形。与传统系统相比，这些技术将总数据速率降低了43倍。

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《IEEE International Ultrasonics Symposium》|2015年|1-4|共4页
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Spaulding Jonathon; Eldar Yonina C.; Murmann Boris;
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array signal processing; compressed sensing; ultrasonic imaging; PCB-based hardware implementation; analog-to-digital converter frontend; digital beamforming backend; mixer-based subarray beamforming technique; subNyquist analog front-end; ultrasound imaging; Array signal processing; Frequency-domain analysis; Image reconstruction; Imaging; Mixers; Transducers; Ultrasonic imaging; Compressed Sensing; Sub-Nyquist Sampling; Subarray Beamforming; Ultrasound Imaging;

机译：阵列信号处理;压缩传感;超声成像;基于PCB的硬件实现;模数转换器前端;数字波束形成后端;基于混频器的子阵列波束形成技术; subNyquist模拟前端;超声成像;阵列信号处理;频率-域分析;图像重建;成像;混频器;换能器;超声成像;压缩传感;亚奈奎斯特采样;子阵列波束形成;超声成像;

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专利

1. A Pitch-Matched Front-End ASIC With Integrated Subarray Beamforming ADC for Miniature 3-D Ultrasound Probes [J] . Chao Chen, Zhao Chen, Deep Bera, Solid-State Circuits, IEEE Journal of . 2018,第11期

机译：集成了子阵列波束形成ADC的音调匹配前端ASIC，用于微型3-D超声探头
2. Single-chip mixer-based subarray beamformer for sub-Nyquist sampling in ultrasound imaging [J] . Kanemoto Daisuke, Spaulding Jonathon, Murmann Boris Japanese journal of applied physics . 2021,第SB期

机译：基于单芯片混频器的子阵列波束形成器，用于超声成像中的子NYQUIST采样
3. Sub-Nyquist Sampling and Fourier Domain Beamforming in Volumetric Ultrasound Imaging [J] . Amir Burshtein, Michael Birk, Tanya Chernyakova, IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control . 2016,第5期

机译：体积超声成像中的次奈奎斯特采样和傅里叶域波束形成
4. A sub-nyquist analog front-end with subarray beamforming for ultrasound imaging [C] . Spaulding Jonathon, Eldar Yonina C., Murmann Boris IEEE International Ultrasonics Symposium . 2015

机译：具有超声成像的子阵列波束成形的子奈奎斯特模拟前端
5. Integrated front-end analog circuits for MEMS sensors in ultrasound imaging and optical grating based microphone. [D] . Qureshi, Muhammad Shakeel. 2009

机译：用于超声成像和基于光栅的麦克风中的MEMS传感器的集成前端模拟电路。
6. Sparse matrix beamforming and image reconstruction for real-time 2D HIFU monitoring using Harmonic Motion Imaging for Focused Ultrasound (HMIFU) with in vitro validation [O] . Gary Y. Hou, Jean Provost, Julien Grondin, -1

机译：使用聚焦运动的谐波运动成像（HMIFU）进行实时二维二维HIFU监测的稀疏矩阵波束形成和图像重建并进行体外验证
7. A Pitch-Matched Front-End ASIC With Integrated Subarray Beamforming ADC for Miniature 3-D Ultrasound Probes [O] . Chao Chen, Zhao Chen, Deep Bera, 2018

机译：具有集成子阵列波束形成ADC的距离匹配的前端ASIC，用于微型3-D超声探头

A sub-nyquist analog front-end with subarray beamforming for ultrasound imaging

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