一种用于超快速聚焦成像的实时双模高频波束形成器。
A Real-Time Dual-Mode High-Frequency Beamformer for Ultrafast and Focused Imaging.
出版信息
IEEE Trans Ultrason Ferroelectr Freq Control. 2022 Apr;69(4):1268-1276. doi: 10.1109/TUFFC.2022.3151218. Epub 2022 Mar 30.
A firmware-based high-frequency beam- former implementing both conventional transmit focused B-mode imaging and diverging wave ultrafast (UF) imaging for Doppler overlay was developed. The beamformer can generate one transmit focused frame with four transmit focal zones (FZs), and 68 UF frames with 16 diverging waves each at a 10-Hz frame rate. The beamformer firmware stores the beamforming delays as a single bit, enabling efficient compression within the internal memory. The beamformer was characterized using a 30-MHz 64-element phased array endoscope. The hybrid system generates a 128 line by 768-pixel focused B-mode image spanning 1.2-12.6 mm axially over a ±32° range of steering angles. In addition, the system generates an UF image that is 64 lines by 384-pixels spanning 3.5-10.8 mm axially over a ±16° angle.
开发了一种基于固件的高频波束形成器,可实现传统发射聚焦 B 模式成像和用于多普勒覆盖的发散波超快 (UF) 成像。该波束形成器可以以 10 Hz 的帧率生成一个具有四个发射焦点区 (FZ) 的发射聚焦帧,以及 68 个具有每个 16 个发散波的 UF 帧。波束形成器固件将波束形成延迟存储为单个位,从而能够在内部存储器中进行有效的压缩。使用 30 MHz 的 64 元件相控阵内窥镜对波束形成器进行了特性描述。混合系统生成一个 128 行 x 768 像素的聚焦 B 模式图像,在 ±32°的转向角度范围内轴向覆盖 1.2-12.6 毫米。此外,该系统生成一个 UF 图像,该图像具有 64 行 x 384 像素,在 ±16°的角度范围内轴向覆盖 3.5-10.8 毫米。
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