超声波
生物医学工程
超声成像
材料科学
医学影像学
医学
超声成像
成像技术
计算机视觉
计算机科学
噪音(视频)
图像处理
作者
Baoqiang Liu,Robert Wodnicki,Josquin Foiret,X. Sun,Junhang Zhang,Christophe Notard,Mathieu Legros,Qifa Zhou,Katherine W. Ferrara
标识
DOI:10.1109/tuson.2026.3674918
摘要
Large aperture 2D arrays improve ultrasound imaging by increasing lateral resolution at depth, owing to the inverse relationship between beamwidth and aperture size, and by enabling higher contrast resolution through electronic focusing in elevation. We present a 4,096-element (128 × 32) large-aperture 2D ultrasound array with element pitches of 0.65 mm (azimuth) and 0.5 mm (elevation), operating at a 2.4 MHz center frequency with over 80% –6 dB bandwidth. The active aperture measures 83.2 mm × 16 mm and is integrated with custom multiplexing ASICs, local preamplifiers for sensitivity enhancement, and an FPGA-based control interface, forming a fully reconfigurable imaging platform. Phantom experiments using a commercial CIRS 054GS tissue-mimicking phantom demonstrated penetration beyond 120 mm. The system achieved axial and lateral resolutions of 0.40 mm and 0.46 mm respectively at depths of 51 mm, with a maximum CNR of 2.13 and gCNR of 0.94 for cyst targets. These results validate the effectiveness of the large aperture 2D array for high-resolution volumetric ultrasound imaging and underscore the promise for future clinical translation.
科研通智能强力驱动
Strongly Powered by AbleSci AI