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使用万向节辅助距离传感器和惯性测量单元的多功能低成本容积 3D 超声成像。

Versatile Low-Cost Volumetric 3D Ultrasound Imaging Using Gimbal-Assisted Distance Sensors and an Inertial Measurement Unit.

机构信息

Brain Science Institute, Korea Institute of Science and Technology (KIST), Seoul 02792, Korea.

Micro Nano Fab Center, Korea Institute of Science and Technology (KIST), Seoul 02792, Korea.

出版信息

Sensors (Basel). 2020 Nov 19;20(22):6613. doi: 10.3390/s20226613.

Abstract

This study aims at creating low-cost, three-dimensional (3D), freehand ultrasound image reconstructions from commercial two-dimensional (2D) probes. The low-cost system that can be attached to a commercial 2D ultrasound probe consists of commercial ultrasonic distance sensors, a gimbal, and an inertial measurement unit (IMU). To calibrate irregular movements of the probe during scanning, relative position data were collected from the ultrasonic sensors that were attached to a gimbal. The directional information was provided from the IMU. All the data and 2D ultrasound images were combined using a personal computer to reconstruct 3D ultrasound image. The relative position error of the proposed system was less than 0.5%. The overall shape of the cystic mass in the breast phantom was similar to those from 2D and sections of 3D ultrasound images. Additionally, the pressure and deformations of lesions could be obtained and compensated by contacting the probe to the surface of the soft tissue using the acquired position data. The proposed method did not require any initial marks or receivers for the reconstruction of a 3D ultrasound image using a 2D ultrasound probe. Even though our system is less than $500, a valuable volumetric ultrasound image could be provided to the users.

摘要

本研究旨在利用商业二维(2D)探头创建低成本、三维(3D)、徒手超声图像重建。可附接到商业 2D 超声探头的低成本系统包括商用超声距离传感器、万向节和惯性测量单元(IMU)。为了校准探头在扫描过程中的不规则运动,从附接到万向节的超声传感器收集相对位置数据。方向信息由 IMU 提供。使用个人计算机组合所有数据和 2D 超声图像,以重建 3D 超声图像。该系统的相对位置误差小于 0.5%。乳房模型中囊性肿块的整体形状与 2D 及 3D 超声图像的切片相似。此外,通过使用所获取的位置数据接触探头到软组织表面,可以获得病变的压力和变形,并进行补偿。所提出的方法不需要任何初始标记或接收器即可使用 2D 超声探头重建 3D 超声图像。尽管我们的系统不到 500 美元,但可以为用户提供有价值的容积超声图像。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ddbc/7699245/23c2eb499e79/sensors-20-06613-g001.jpg

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