Lewandowski Marcin, Nowicki Andrzej
IEEE Trans Ultrason Ferroelectr Freq Control. 2008 Aug;55(8):1878-82. doi: 10.1109/TUFFC.2008.871.
Coded transmission is an approach to solve the inherent compromise between penetration and resolution required in ultrasound imaging. Our goal was to examine the applicability of the coded excitation to HF (20-35 MHz) ultrasound imaging. A novel real-time imaging system for research and evaluation of the coded transmission was developed. The digital programmable coder- digitizer module based on the field programmable gate array (FPGA) chip supports arbitrary waveform coded transmission and RF echo sampling up to 200 megasamples per second, as well as real-time streaming of digitized RF data via a high-speed USB interface to the PC. All RF and image data processing were implemented in the software. A novel balanced software architecture supports real-time processing and display at rates up to 30 frames/sec. The system was used to acquire quantitative data for sine burst and 16-bit Golay code excitation at 20 MHz fundamental frequency. SNR gain close to 14 dB was obtained. The example of the skin scan clearly shows the extended penetration and improved contrast when a 35-MHz Golay code is used. The system presented is a practical and low-cost implementation of a coded excitation technique in HF ultrasound imaging that can be used as a research tool as well as to be introduced into production.
编码传输是一种解决超声成像中穿透深度和分辨率之间固有折衷问题的方法。我们的目标是研究编码激励在高频(20 - 35兆赫兹)超声成像中的适用性。开发了一种用于编码传输研究和评估的新型实时成像系统。基于现场可编程门阵列(FPGA)芯片的数字可编程编码器 - 数字化器模块支持任意波形编码传输以及高达每秒200兆样本的射频回波采样,还能通过高速USB接口将数字化射频数据实时传输到计算机。所有射频和图像数据处理均在软件中实现。一种新颖的平衡软件架构支持高达30帧/秒的实时处理和显示。该系统用于获取20兆赫兹基频下正弦脉冲串和16位格雷码激励的定量数据。获得了接近14分贝的信噪比增益。皮肤扫描示例清楚地显示,当使用35兆赫兹格雷码时,穿透深度增加且对比度提高。所展示的系统是高频超声成像中编码激励技术的一种实用且低成本的实现方式,可作为研究工具,也可引入生产应用。
