Medical Equipment

 一、Program Overview

This solution is based on the PuZhi MPSOC-ZCU4EV development board to implement a medical imaging device for specific medical applications, such as X-ray imaging, ultrasound imaging, and so on.

二、Key Features:

Imaging acquisition and processing: Acquisition of medical image data and real-time processing

1．High-quality imaging: Realize high-resolution and high-quality medical image imaging.

2.Real-time monitoring and analysis: real-time monitoring and analysis of the collected images to support medical diagnosis.

Data storage and transmission: store the collected image data and support data transmission to the cloud or other devices.

 3.User interface and interaction: Provide a user-friendly interface that allows medical professionals to easily view and analyze images.

 Security and privacy protection: Implement security measures to ensure the security and privacy of image data

 三、Hardware Design:

1.PuZhi MPSOC-ZCU4EV development board: using Xilinx Zynq UltraScale Plus SOC, which includes a resource-rich FPGA part, quad-core A53, dual-core R5, and GPUs to realize advanced embedded applications and real-time image processing capabilities.

Image sensor: choose professional CCD image sensor to achieve high-quality image acquisition.

1．Images processing: design image processing circuit, transmit image data to the FPGA part of Zynq for real-time processing, such as filtering, enhancement, segmentation and so on.

2. Storage and communication: Integrate memory (e.g., SD card, USB flash drive, EMMC, etc.) to save medical image data, and add a communication module (e.g., Wi-Fi or Ethernet) to support data transfer to the cloud or other devices.

Display and user interface: integrated display and touch screen, user-friendly interface designed to enable medical professionals to easily view and analyze images

四、Software Design:

Embedded operating system: Use an embedded operating system (e.g., Linux) to run high-level applications to process image data and user

interfaces.Image processing algorithms: development of image processing algorithms, including filtering, enhancement, segmentation, etc., to support the analysis and diagnosis of medical images

 Real-time monitoring and analysis: Realize real-time monitoring function, analyze the collected images in real time, and provide relevant reports and data.

  Data transfer: development of communication protocols and data transfer mechanisms to ensure that image data can be transferred to the cloud or other devices to support remote diagnostics and collaboration

 User interface: Design user-friendly interfaces that allow medical professionals to easily view and analyze images and provide interactive features.

 五、Testing and Validation:

 Functional testing: comprehensive functional testing of equipment, including image acquisition, processing, storage and transmission functions

 Image quality assessment: assessing the quality of medical images to ensure that they meet the requirements of medical diagnosis.

 Clinical validation: Validation in actual clinical environments, testing the utility and effectiveness of equipment with medical professionals.

 六、Documentation and Certification:

Technical documentation: preparation of detailed technical documentation, including hardware and software design instructions, user manuals, etc.

Regulatory compliance: Ensure that equipment meets medical device regulations and certification requirements, such as FDA, CE, etc.

七、Production and Maintenance:

1．Production readiness: Preparation of the production process to ensure the quality and scalability of the equipment.

2．Remote Maintenance: Implement remote equipment monitoring and maintenance capabilities to ensure equipment stability and availability.