Doctoral supervisor, male, born in October 1949, graduated from Beijing University of Aeronautics and Astronautics in 1981, received a master's degree in computer simulation, chief scientist of the 973 project, director of Guangdong Provincial Key Laboratory of Medical Image Processing, former dean of the School of Biomedical Engineering of Southern Medical University. He is now the vice president of the Chinese Society of Image Graphics, executive director of the Chinese Society of Biomedical Engineering, vice director of the Teaching Guidance Committee of Biomedical Engineering in Higher Education Institutions under the Ministry of Education, academic member of the State Key Laboratory of CAD&CG, academic member of the State Key Laboratory of Pattern Recognition, expert in the evaluation of the National 973 Project, and expert in the evaluation of the National Natural Science Foundation of China and the scientific and technological achievements, He is also a Distinguished Professor of University of Electronic Science and Technology (UEST), a member of IEEE, a vice president of Guangdong Biomedical Engineering Society, a recipient of Dingying Award of Guangdong Province, and a recipient of State Council's Special Government Allowance. In recent years, he has published 110 papers and edited 2 textbooks and 2 monographs. He was nominated by the Ministry of Education for the first prize of National Science and Technology Progress Award for technological invention, the second prize of National Science and Technology Invention Award, the second prize of Natural Science in Chinese Universities, the second prize of Army Science and Technology Progress Award, and the third prize of National Science and Technology Progress Award; he has presided over 1 project of 973, 4 projects of the National Natural Science Foundation of China, 2 projects of Guangdong Provincial Key Funds, and 2 projects of the Guangdong Provincial Natural Science Foundation. Now he is presiding over 1 project of 973, 1 project of National Tenth Five-Year Plan, 1 project of National Natural Science Foundation of China, 1 project of Army Tenth Five-Year Plan, and many projects of provincial and municipal science and technology programs. At present, he is mainly engaged in the research of generalized fuzzy set theory and image processing, and carries out the theoretical and applied research of remote communication of medical images and modern medical PACS. Research Projects
:1. "Research on Key Scientific Issues of Modern Medical Imaging and High-Dimensional Image Analysis", 2010.1-2014.12, National Key Program for the Development of Basic Research, Chief Scientist, with 5.64 million RMB in place for the current project team.2. "Key Techniques for Medical Image Fuzzy Content Retrieval Based on Key Technology Research on Fuzzy Content Retrieval of Medical Images", 2008.01-2011.12, National Natural Science Foundation of China Key Program, 1.55 million yuan. I currently have total funds at my disposal: 2.5 million yuan.
Large-scale medical imaging equipment was introduced in the 1970s, which revolutionized clinical and basic medicine, and at the same time, a new discipline - "medical imaging and image analysis" was also quietly generated. In the 1980s, the research of this discipline entered into a climax, and the corresponding international famous academic journals were published one after another. Professor Chen Wufan realized the great potential of this new discipline, and was the first to engage in medical imaging and image analysis research in China, and set up a research center in 1987 at the former First Military Medical University to carry out comprehensive cross research in information science and life sciences, which is still a nationally renowned specialized research institution.
Professor Chen Wufan has been engaged in scientific research and personnel training in the field of science, technology and medicine for more than 20 years, focusing on the theme of "medical imaging and image analysis", and has successively put forward the a priori parameter-based adaptive correction method and the two-phase search optimization strategy, which is an important innovation in the optimization theory; proposed the medical image reconstruction and optimization strategy for the two-phase search. This theory has become an important innovation in optimization theory; the idea of "fuzzy stochastic modeling" for medical image reconstruction and image analysis has been put forward, which is the first time that the randomness of information generation is associated with the fuzziness of visual evaluation, and a new concept of generalized fuzzy set and the conversion relationship with fuzzy set have been put forward, as well as the design models for the distribution of fuzziness are put forward in response to different imaging or analytical problems. .
Professor Wufan Chen not only attaches importance to basic theoretical research, but also attaches great importance to practical problem solving. In terms of applied research, he has a very in-depth understanding of medical imaging science, and has his own unique insights and theories on imaging technologies such as magnetic *** vibration, PET, CT, etc. The relevant technologies have been declared patents, or have reached cooperation with relevant domestic enterprises. Another of his research has been put into practical implementation stage, he guided the completion of large-scale PACS software to meet the workflow of domestic hospitals, and embedded the relevant innovations in his theoretical research into the PACS system constituting fPAX, which enables it to realize the clinical digital quantitative diagnosis, but also has a powerful image analysis function. This achievement of his has now been installed in more than 20 large and medium-sized hospitals in China.
Over the past 20 years, Prof. Chen Wufan has established the new discipline of "Medical Imaging and Image Analysis" in China, and has painstakingly gone through the heartfelt process of comprehensive cross-development of science, technology and medicine from scratch. Now, as the chairman of the National Medical Imaging Committee and IEEE Senior Member, he is actively leading the academic exchanges at home and abroad, which makes our country win high international academic status and respect in the field of medical imaging science and image analysis; as the director of the "Medical Imaging Key Laboratory of Guangdong Province", he continues to engage in As the director of "Guangdong Key Laboratory of Medical Imaging", he continues to engage in the research of knowledge innovation; as the director of "Engineering Center of Ministry of Education for Digital Medical Devices", he insists on strongly promoting the transformation of technological inventions into industry; as the deputy director of the Teaching Steering Committee of Biomedical Engineering of the Ministry of Education, he has been doing his duty to the standardization of teaching in his discipline, in which he is responsible for teaching the course " Modern Medical Imaging Technology" has been awarded as a national high-quality course; he has trained 23 PhDs, 57 masters and 5 post-doctoral students, who have played a key role in teaching and researching. Doctoral Supervisor Graduated from Tsinghua University, Department of Electrical Engineering and Applied Electronics, Master of Biomedical Engineering and Instrumentation. Research Projects: 1. 2007 Guangdong Province, the major project of industrialization of scientific and technological achievements of universities - cone beam CT-guided radiation therapy machine (cgzhzd0713), October 2007 ~ December 2010, 1.5 million yuan. 2. 2008 Guangdong Province, the key scientific and technological program projects --Image-guided radiation therapy system (2008A030102011), October 2008~December 2011, 800,000 RMB. 3. 2009 National Natural Science Foundation of China upper-level project --Demons model in the Application of Demons model in image-guided radiation therapy (30970866), January 2010~December 2012, 290,000 RMB. Currently, I have a total of 3.39 million RMB at my disposal. Research Direction I: Tumor Radiation Physics
Characteristics and Significance: Radiation therapy is one of the three main treatments for tumors, and about 70% of tumor patients use radiotherapy in their treatment, and the incidence of tumors is still on the rise worldwide. The aim of radiotherapy is to continuously improve the local control rate of treatment by increasing the dose to the target area and/or reducing the radiation damage to normal tissues around the target area, in order to further increase the survival rate and/or improve the quality of life. Oncology radiophysics is a cross-fertilization discipline of physics and medicine, which applies the principles and methods of physics to oncology radiation therapy to solve clinical problems such as tumor irradiated dose, tumor localization and tracking, quality assurance of radiotherapy equipment, and treatment plan design.
Over the past 10 years, we have developed and completed the development of X-knife, 3D conformal and intensity-modulated radiotherapy systems, and are now focusing on the research of key technologies and the development of equipments, such as: MC-based dosimetry calculation, image-guided radiotherapy, four-dimensional radiotherapy, target-area auto-tracking, and adaptive radiotherapy.
Research Direction 2: Intelligent Medical Instrument Design, mainly carries out the research and development of high-frequency (100kHz) high-voltage generator for medical diagnostic X-ray machine and CT machine, and has completed the research and development of series of high-frequency high-voltage generators, such as 10kW, 20kW, 30kW, and 50kW.
Academic status: He has a certain academic status in the field of tumor radiophysics in China, and is a member of the National Sub-Technical Committee for Standardization of Radiation Therapy, Nuclear Medicine and Radiation Dosimetry Equipment and a vice-chairman of Medical Physics Professional Committee of Guangdong Biomedical Engineering Society.
He is the vice chairman (and secretary-general) of the Medical Devices Committee of Guangdong Biomedical Engineering Society, and has a high reputation in the medical instrument industry of Guangdong Province. He is an expert in reviewing the National Natural Science Foundation of China and various funds and achievement awards in Guangdong Province.
Professor Feng Qianjin
Feng Qianjin, male, born in March 1974, is a professor and a doctoral supervisor. He is a professor and a doctoral supervisor. He is the chairman of Medical Imaging Branch of Chinese Biomedical Engineering Society, the chairman of Medical Imaging Committee of Guangdong Biomedical Engineering Society, and the consultant of Guangdong Medical Informatization Construction. He is mainly engaged in the research of medical image analysis and medical informatization. He has published more than 100 academic papers. He has been awarded 8 national invention patents. 2 software copyrights. He was awarded the second prize of National Science and Technology Invention, the second prize of Guangdong Science and Technology Progress, the first prize of Science and Technology Invention nominated by the Ministry of Teaching, the third prize of Guangdong Science and Technology Progress, and the Dingying Prize of Guangdong Province. He has undertaken a number of projects such as the sub-projects of the National 973 Project, the sub-projects of the National 863 Project, the sub-projects of the National Science and Technology Support Program, the National Natural Science Foundation of China, and the Natural Science Foundation of Guangdong Province.