Followed by "Introduction to Academicians of the Department of Information Technology Science of the Chinese Academy of Sciences (1)" (in alphabetical order of surname).
Dai Ruwei, born on December 31, 1932 in Kunming, Yunnan Province, is an expert in cybernetics and artificial intelligence, a member of the Chinese Academy of Sciences, a researcher, director of the Academic Committee and the director of the Academic Degree Committee of the Institute of Automation, Chinese Academy of Sciences.
After graduating from the Department of Mathematical Mechanics of Peking University in 1955, Dai Ruwei was assigned to work in the Institute of Mechanics of the Chinese Academy of Sciences, and then to the Institute of Automation, Chinese Academy of Sciences. In 1980, he was selected as one of the first visiting scholars sent to the United States by the country. In 1991, he was elected as a member (academician) of the Chinese Academy of Sciences. From 1993 to 1998, he served as Deputy Director of the Department of Technology and Science of the Chinese Academy of Sciences. In 2010, he won the Lifetime Achievement Award of China Pattern Recognition Technology; In 2016, he won the China Systems Engineering Lifetime Achievement Award.
Dai Ruwei has long been engaged in research work in automatic control, system science, thinking science, pattern recognition, artificial intelligence, etc. In the early 70s of the 20th century, he introduced "pattern recognition" into China and proposed semantic-syntactic pattern recognition, which became the theoretical basis of the core technology of "Hanwang", and won the first prize of the National Science and Technology Award. In the early 90s, through the way of artificial intelligence, under the direct guidance of Mr. Qian Xuesen, he stepped into the research in the fields of "open complex giant systems and their methods", "human-oriented, human-machine combination, from qualitative to quantitative comprehensive integrated seminar hall", and carried out interdisciplinary integration in some frontier fields, which played an important role in the decision-making of major issues in the field of China's economic, military and social development. In the early 80s, he worked with K. Jingsun Fu, an internationally renowned pattern recognition expert, at Purdue University in the United Statess.FU) cooperated to combine statistical pattern recognition with syntactic pattern recognition, and proposed semantic and syntactic methods. In the late 80s, he took the lead in carrying out artificial neural network research in China, and presided over the completion of the "Artificial Neuron Network Software Package", so as to link pattern recognition with artificial neural network and image thinking, and apply it to the recognition of handwritten Chinese characters, forming a distinctive academic thought. In the 90s, he was engaged in the research of open complex giant systems and the methods of dealing with such systems, and applied the concept of integrated integration to pattern recognition, and put forward the academic view of integrated pattern recognition.
Ding Chibiao, male, born in July 1969, is an expert in radar imaging theory and technology, academician of the Chinese Academy of Sciences, researcher, director of the research office, doctoral supervisor of the Institute of Electronics, Chinese Academy of Sciences, researcher and doctoral supervisor of the Aerospace Information Innovation Institute of the Chinese Academy of Sciences, vice president of the Chinese Academy of Sciences, and member of the party group.
Ding Chibiao graduated from Beijing University of Aeronautics and Astronautics with a bachelor's degree in 1991. In 1994, he obtained a master's degree from Beihang University. He graduated from the Department of Electronic Engineering of Beihang University in 1997. From July 1997 to September 1998, he served as an assistant researcher at the Institute of Electronics, Chinese Academy of Sciences; From September 1998 to July 2000, he served as an associate researcher at the Institute of Electronics, Chinese Academy of Sciences. From July 2000 to September 2003, he served as a researcher and deputy director of the Institute of Electronics, Chinese Academy of Sciences. From September 2003 to March 2007, he served as a researcher and director of the Institute of Electronics, Chinese Academy of Sciences. In March 2017, he was appointed as the deputy director and researcher of the Institute of Electronics, Chinese Academy of Sciences; In August 2019, he was appointed as the Vice President of the Aerospace Information Innovation Institute of the Chinese Academy of Sciences. In September 2021, he was appointed as the Director of the Bureau of Major Science and Technology Tasks of the Chinese Academy of Sciences; In 2021, he was elected as an academician of the Chinese Academy of Sciences; On August 30, 2023, he was appointed Vice President of the Chinese Academy of Sciences.
Ding Chibiao is engaged in the research of synthetic aperture radar imaging theory and technology of the new system. As the main person in charge, he presided over the successful development of China's first remote sensing satellite ground information processing system with independent intellectual property rights, the construction of China's first microwave radiation calibration field, and the first systematic calibration of spaceborne radar. As the project leader of the "863" Program "Airborne Beam Clustering SAR and Signal Processing Research", he successfully developed the first airborne Beam Clustering SAR experimental system in China. From 2001 to 2005, he presided over the successful development of a number of high-resolution airborne SAR systems, realizing the leapfrog development of China's high-resolution airborne SAR technology, and at the same time, successfully developed China's first airborne interferometric SAR system, and obtained the first three-dimensional radar topographic map in China, which is of pioneering significance.
Duan Guangren, male, born in April 1962, is from Huachuan, Heilongjiang. He is a member of the Communist Party of China, an academician of the Chinese Academy of Sciences, an IEEE Fellow, an IET Fellow, a National Outstanding Young Scholar, a professor and doctoral supervisor of Harbin Institute of Technology, and the director of the Research Center for Control Theory and Guidance Technology of the School of Astronautics of Harbin Institute of Technology.
Duan Guangren studied Xi in applied mathematics at Northeast Heavy Machinery Institute from September 1979 to August 1983 and obtained a bachelor's degree. From September 1983 to August 1986, he studied Xi in modern control theory at Harbin Institute of Shipbuilding Engineering and obtained a master's degree. From September 1986 to August 1989, he studied Xi in general mechanics of Harbin Institute of Technology and obtained a doctorate degree. In October 1991, he was appointed as a professor in the Department of Control Engineering of Harbin Institute of Technology. In October 2002, he was appointed as the director of the Control Theory and Guidance Technology Center of Harbin Institute of Technology; In 2019, he was elected as an academician of the Chinese Academy of Sciences.
Duan Guangren has been engaged in the theory and application of automatic control for a long time; His main research interests include parametric design of control systems, robust control, generalized systems, linear matrix inequality methods, aircraft guidance and control, and maglev control system design. He established a number of parameterized general solutions for the control law to ensure the stability of the system. Furthermore, the parametric design theory of the control system is systematically proposed through parameter optimization. Solved the legacy of 15 years of ateel input saturation implementation issues; The parametric design theory of control system is systematically proposed.
Dong Yunmei, born on March 4, 1936 in Kunming, Yunnan Province, is a computer software expert, an academician of the Chinese Academy of Sciences, a researcher and doctoral supervisor of the Institute of Software of the Chinese Academy of Sciences, and a professor of Jilin University.
After graduating from the Department of Mathematics of Jilin University in 1956, Dong Yunmei joined the Institute of Computing Technology of the Chinese Academy of Sciences, where she served as a researcher and doctoral supervisor. In 1978, he went to Stanford University for further study. In 1985, he worked in the Institute of Software of the Chinese Academy of Sciences, and successively served as the director of the Academic Committee, the director of the Academic Degree Evaluation Committee, and the first director of the Open Laboratory of Computer Science. In 1993, he was elected as an academician of the Chinese Academy of Sciences. In 2005, he was hired as a professor of Jilin University; In 2013, he won the Lifetime Achievement Award of China Computer Federation.
Dong Yunmei is mainly engaged in research in various fields such as software theory, technology, tools and Chinese character information processing, and is also engaged in the research of software protocols and software design methods. Since the late 50s of the 20th century, he has been engaged in the research and development of computer software. In the early and mid-60s of the 20th century, he presided over and was the main force in the development of China's earliest practical high-level programming language BCY and the compiler on the computer, and his subsequent work included formal language theory and compilation technology. In 1979, he proposed a parametric graphics method for designing high-quality Chinese character glyphs by computer, and solved the relevant implementation technology. Since the mid-80s of the 20th century, he has been studying software reuse technology. Since the 90s of the 20th century, he has studied the acquisition and reuse of formal specifications, proposed a grammatical inference method based on reuse, and proposed a new theory of recursive functions: the recursive function CFRF on context-independent languages.
Fang Jiancheng, born in Feixian County, Shandong Province in September 1965, is an expert in navigation, guidance and control, an academician of the Chinese Academy of Sciences, a winner of the "National Outstanding Young Scientists", and the chief scientist of the national "973 Program".
Fang Jiancheng graduated from Southeast University with a Ph.D. in 1996 and was elected as an academician of the Department of Information Technology Science of the Chinese Academy of Sciences in 2015. He used to be the executive vice president of Beijing University of Aeronautics and Astronautics. He is currently the director of the Academic Committee of Beihang University, the chief scientist of the National Major Science and Technology Infrastructure with Extremely Weak Magnetic Field, the director of the National Defense Key Discipline Laboratory of New Inertial Instrument and Navigation System Technology, the Chinese director of the Sino-British Joint Laboratory of Space Science and Technology, the dean of the Scientific Device Research Institute of Beihang University, the director of the Zero Magnetic Science Center, and the president of the Hangzhou National Institute of National Major Science and Technology Infrastructure with extremely weak magnetic field. He is also the president of the China Science and Technology Law Society, the vice chairman of the China Association of Inventions, the executive director of the China Instrument and Control Society, the executive director of the China Inertial Technology Society, and the director of the China Postdoctoral Science Association.
Academician Fang Jiancheng is mainly engaged in the research of spacecraft attitude control, magnetic levitation inertial actuator and inertial navigation technology. He proposed the design method of high-precision and low-power maglev inertial momentum wheel and control moment gyro based on a new hybrid magnetic bearing, and presided over the successful development of China's first five-degree-of-freedom active control maglev inertia momentum wheel and maglev control torque gyroscope. A new method of fast and accurate alignment of strapdown inertial measurement system and a new filtering method of combined measurement system are proposed, which improves the accuracy of airborne strapdown inertial position and attitude measurement system.
Feng Dengguo, born in May 1965 in Jingbian, Shaanxi Province, is an expert in network and information security, an academician of the Chinese Academy of Sciences, and a researcher at the Institute of Software of the Chinese Academy of Sciences.
Feng Dengguo studied mathematics and applied mathematics at Shaanxi Normal University from 1984 to 1988. In 1993, he obtained a master's degree in cryptography from Xidian University. In 1995, he received a doctorate degree in communication and information systems from Xidian University. From September 1995 to October 1997, he served as an associate professor at the Graduate School of the Chinese Academy of Sciences. In November 1997, he was appointed as a researcher at the Institute of Software, Chinese Academy of Sciences. From 2000 to 2012, he served as the director of the State Key Laboratory of Information Security. In 2012, he was appointed President of the Beijing Academy of Information Science and Technology [23]; In 2019, he was elected as an academician of the Chinese Academy of Sciences.
Feng Dengguo is mainly engaged in the theoretical and technical research of secure communication, network security and trusted computing. The theory of secure, credible, dynamic scheduling and reliable reconstruction of key information resources in complex environments was created. presided over the development of China's first dynamic national core secure communication system; In this paper, the spectral characteristics of the correlation immune function on the remaining class rings, the design of a provably safe input length variable encryption mode, and the new theory and method of conditional mask analysis are proposed. presided over the invention of China's first cryptographic algorithm that has become an international mainstream standard - Zu Chongzhi's algorithm; The theory and method of PKI construction with high security level were proposed. He presided over the development of China's first high-security PKI with intrusion tolerance function, and built China's PKI standard system.
Gan Fuxi, born on January 3, 1933 in Hangzhou, Zhejiang, is a physicist in optical materials and amorphous state, one of the pioneers of laser technology in China, a member (academician) of the Chinese Academy of Sciences, an academician of the Third World Academy of Sciences, and a researcher and doctoral supervisor of the Shanghai Institute of Optics and Fine Mechanics of the Chinese Academy of Sciences.
After graduating from Zhejiang University in 1952, Gan Fuxi was assigned to work in the Instrument Hall of the Chinese Academy of Sciences, successively serving as a research Xi, assistant researcher, and project leader. In 1956, he was sent to the Institute of Silicate Chemistry of the Academy of Sciences of the former Soviet Union to study and work Xi; In 1959, he received a Ph.D. degree from the Institute of Silicate Chemistry of the USSR Academy of Sciences. In 1960, he returned to the Changchun Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, and successively served as the director of the Optical Materials Research Office and the Director of the Optical Materials Research Department. In 1964, he joined the Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, as the director of the Laser Materials Research Office. From 1977 to 1984, he served as Vice President of the Shanghai Branch of the Chinese Academy of Sciences and Director of the Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences. In 1980, he was elected as a member (academician) of the Chinese Academy of Sciences; In 1994, he was elected as a member of the Third World Academy of Sciences. In 2001, he won the President's Award of the International Glass Association; In 2002, he became a professor at Fudan University.
Gan Fuxi has long been engaged in the research of optical and laser materials, the structure and properties of amorphous substances, especially the optical and spectral properties of glass, as well as the research of optoelectronic technology, especially the optical, magneto-optical and electro-optical properties of functional materials such as optical communication and optical storage.
Gong Qihuang, born in Putian City, Fujian Province in August 1964, is an optical expert, an academician of the Chinese Academy of Sciences, and an academician of the Academy of Sciences for Developing Countries. He is currently an alternate member of the 20th ** National Committee, Deputy Secretary of the Party Committee and President of Peking University (Vice Minister level), Dean of the Graduate School, and Vice Chairman of the Beijing Association for Science and Technology.
Gong Qihuang graduated from Peking University in 1983 with a bachelor's degree. In 1989, he received his Ph.D. from Peking University and stayed on to teach. In 1998, he was appointed as a distinguished professor of the Changjiang Scholars Program. From 2001 to 2017, he served as the director of the State Key Laboratory of Artificial Microstructures and Mesoscopic Physics. From 2009 to 2015, he served as the Deputy Dean of the School of Physics and the Deputy Director of the Development Planning Department of Peking University. In 2013, he was elected as an academician of the Chinese Academy of Sciences; From 2015 to 2017, he served as the Executive Vice Dean of the Graduate School of Peking University. In 2016, he served as Boya Chair Professor of Peking University. From 2017 to 2019, he served as a member of the Standing Committee of the Party Committee and Vice President of Peking University. In 2018, he also served as the Provost of Peking University. In 2019, he served as a member of the Standing Committee of the Party Committee and Executive Vice President of Peking University. In June 2022, he was appointed as President of Peking University (Vice Minister level) and Deputy Secretary of the Party Committee.
Gong Qihuang has long been engaged in the research of the frontiers of nonlinear optics and spatiotemporal small-scale optics. He proposed a new method to obtain ultrafast response and large coefficient of third-order nonlinear optical materials through rapid charge transfer, and realized high-performance ultrafast low-threshold all-optical switching. Pioneered femtosecond nanospace-time high-resolution optical measurement to realize ultrafast light control of nanostructure and artificial control of electronic state.
(To be continued).
List of high-quality authors