With the rapid development of microelectronics technology, digital image processing technology has deepened our lives. In the past, image processing mostly used software processing. Due to the large number of processing algorithms and the complexity of the algorithm, it could not meet the real-time requirements. Therefore, this paper proposes a method for parallel processing of ultrasound images based on fax by using a programmable logic device. Image fusion is to extract and synthesize complementary information from different sensors to obtain a more accurate, comprehensive and reliable description of the target or scene. The transmission of images and other images is achieved by the sound of various sensors, which is far from enough. This article presents the use of hardware description language to design image processing and drivers. The core of the print head, scan head and stepper motor can use the control interface to perform selective and parameter variable median filtering on the scanned graphic image through software. Edge sharpening, image field separation, binarization and other hardware processing are compared with a series of processing directly using software, and the optimal processing plan can be made well, and the processed image can be displayed and printed out on the. This design can produce practical results for designs in the fields of biomedicine, sports, and energy production.

随着微电子技术的飞速发展，数字图像处理技术已经深入我们的生活。过去，图像处理多采用软件处理。由于处理算法众多，算法复杂，不能满足实时性要求。因此，本文提出了一种利用可编程逻辑器件对基于传真的超声图像进行并行处理的方法。图像融合是从不同的传感器中提取和合成互补信息，以获得对目标或场景更准确、全面和可靠的描述。图像和其他图像的传输是通过各种传感器的声音来实现的，这还远远不够。本文介绍了使用硬件描述语言来设计图像处理和驱动程序。打印头、扫描头和步进电机的核心可以使用控制接口通过软件对扫描的图形图像进行选择性和参数可变的中值滤波。边缘锐化、像场分离、二值化等硬件处理与直接使用软件进行的一系列处理相比较，可以很好地制定出最优的处理方案，并将处理后的图像显示出来并打印在上面。这种设计可以为生物医学、体育和能源生产领域的设计产生实际效果。二值化等硬件处理与直接使用软件进行的一系列处理相比较，可以很好地制定出最佳的处理方案，并将处理后的图像显示出来并打印出来。这种设计可以为生物医学、体育和能源生产领域的设计产生实际效果。二值化等硬件处理与直接使用软件进行的一系列处理相比较，可以很好地制定出最佳的处理方案，并将处理后的图像显示出来并打印出来。这种设计可以为生物医学、体育和能源生产领域的设计产生实际效果。