Difference between Intelligent Imaging Engineering and Medical Imaging Technology

Taking the combination of intelligent imaging engineering and medical imaging technology as an example, the following is for reference:

I. Intelligent Image Engineering

1. Intelligent image engineering is an interdisciplinary subject that uses computer science and artificial intelligence technology to process and analyze medical images. Intelligent image engineering can automatically identify, locate and quantify abnormal areas in medical images, and help doctors make more accurate diagnosis.

2. Image processing technology is the core of intelligent image engineering, including image pre-externalization, feature extraction, image segmentation and image classification. Through the processing of medical images, useful information can be extracted from the images to help doctors better understand and analyze the image data.

Second, medical imaging technology

1, medical imaging technology refers to the image acquisition, processing and analysis technology applied in the medical field. Medical imaging technology includes many different imaging methods, such as radiography, magnetic resonance imaging (MRI), computed tomography (CT), ultrasound imaging and positron emission tomography (PET).

2. These imaging methods can obtain the internal structure and function information of human body, and help doctors to make disease diagnosis and treatment plans through image processing and analysis;

Third, the difference

1. In clinical application, intelligent imaging engineering and medical imaging technology play an important role in many fields. First of all, in disease diagnosis, intelligent imaging engineering can help doctors locate and identify lesions through automatic analysis of medical images;

2. For example, in the early diagnosis of breast cancer, intelligent imaging engineering can automatically detect the location and size of the tumor to help doctors make more accurate treatment plans. In addition, in the fields of neuroscience and brain science, intelligent image engineering can help doctors understand the relationship between brain function and diseases by analyzing brain images, and provide basis for the diagnosis and treatment of nervous system diseases;

3. In medical research, intelligent imaging engineering and medical imaging technology can provide rich image data and help researchers to deeply understand the structure and function of human organs. For example, in the study of heart disease, medical imaging technology can provide three-dimensional structure and motion information of the heart;

By analyzing these data, researchers can reveal the pathogenesis of heart disease and develop new treatment methods. In addition, intelligent imaging engineering can fuse different medical imaging data, provide more comprehensive information, and help researchers analyze diseases from multiple angles.