Followed by "Introduction to Senior Academicians of the Department of Information and Electronic Engineering of the Chinese Academy of Engineering (VIII)" (in alphabetical order of surname).
Zhang Zhonghua, male, Han nationality, born on July 2, 1940 in Suzhou City, Jiangsu Province, member of the Communist Party of China, native of Suzhou City, Jiangsu Province, first-class researcher of the Chinese Institute of Metrology, electromagnetic metrology expert, academician of the Chinese Academy of Engineering.
In 1962, Zhang Zhonghua graduated from the Department of Electrical Engineering of Tsinghua University, majoring in high-voltage technology, and was later admitted to the Graduate School of Tsinghua University, where he conducted postgraduate Xi in the Basic Teaching and Research Group of Electrical Engineering of the Department of Electrical EngineeringIn 1967, he was assigned to work in the electromagnetic department of the Chinese Institute of MetrologyIn 1995, he was elected as an academician of the Chinese Academy of EngineeringFrom 1996 to 2006, he served as the director of the Electrical Reference Laboratory of the Ministry of Quantum at the Chinese Institute of Metrology. In 2011, he worked as an expert consultant in Jiangsu Quality and Safety Engineering Research Institute.
Zhang Zhonghua has been engaged in the research and design of national benchmarks for electromagnetic measurement for a long time. In the mid and late 60s of the 20th century, he presided over the design, test and operation of the national capacitance benchmark. In 1997, the international comparison of 10pf capacitance organized by the International Bureau of Weights and Measures (BIPM) was only 4 10-8 different from the international average. From 1983 to 1988, he was responsible for the establishment of the national strong magnetic field standard (2 12 Tesla) with an uncertainty of 6 10-5 by cryogenic nuclear magnetic resonance. From 1987 to 2004, he was responsible for the establishment of the "Quantized Hall Resistance Benchmark", which solved a series of technical problems that had not been proposed in China and abroad, and made the accuracy of the benchmark more than ten times higher than the best level in China, and was confirmed in the key comparison organized by the International Committee of Weights and Measures in 2004.
Zhong Shan (formerly known as Zhong Guangxiang), born on January 15, 1931 in Chengdu, Sichuan, is an expert in guidance system engineering, an academician of the Chinese Academy of Engineering, an academician of the International Academy of Astronautics, and a researcher of the Second Academy of China Aerospace Science and Industry Corporation.
In 1949, Zhong Shan quit the Department of Mathematics of Chongqing University and joined the People's Liberation ArmyIn 1953, he was admitted to the Military Engineering College of the Chinese People's Liberation ArmyAfter graduating in 1958, he was selected and transferred to the newly established Second Branch of the Fifth Research Institute of the Ministry of National Defense [2];In 1980, he was appointed chief designer of the "Hongqi-7" surface-to-air missileIn 1999, he was elected as an academician of the Chinese Academy of EngineeringIn 2006, he served as the chief designer of the security technology system of the Beijing Olympic Games.
Zhong Shan has always been engaged in the missile business, and gradually shifted his research focus to ground-to-air missiles. He has been working in the front line of national defense scientific research and development for a long time, especially in the field of low-altitude prevention and control missile science and technology, and has made great achievements, and is the main technical leader in this field. He served as the chief designer of the "missile ** system" and the deputy chief designer of the "destroyer".
Zhou Liwei, male, Han nationality, born in Shanghai on September 17, 1932, from Zhuji City, Zhejiang Province, member of the Communist Party of China, expert in electron optics and optoelectronic imaging, academician of the Chinese Academy of Engineering, professor, doctoral supervisor and chief expert of Beijing Institute of Technology.
In 1958, Zhou Liwei graduated from the Instrument Department of Beijing Institute of TechnologyIn 1966, he received a Ph.D. in Mathematical Physics from the Leningrad Electrotechnical Institute of the USSRFrom 1951 to 1953, he worked in Shanghai Huatong Motor FactoryFrom 1958 to 1962, he studied Xi in the Department of Instrumentation, Beijing Institute of TechnologyFrom 1972 to 1984, he served as the director of the teaching and research department of Beijing Institute of TechnologyFrom 1984 to 1988, he served as the director of the Academic Committee of the Department of Beijing Institute of TechnologyIn 1999, he was elected as an academician of the Chinese Academy of EngineeringIn 2008, he was appointed as the Honorary Dean of the School of Basic Education, Beijing Institute of Technology.
Zhou Liwei has been engaged in teaching and scientific research in the field of wide-beam electron optics and optoelectronic imaging for a long time. In the early 60s of the 20th century, the electron optics of electrostatic focusing concentric sphere system was selected as the breakthrough and entry point for the study of wide-beam electron optics, and the characteristics and problems of large-scale and wide electron beam focused imaging were clarified, and a series of problems such as electron optics of electron focusing concentric sphere system, electron optics of shifting system, electron optics of oblique system and wide electron beam focusing were solved. Since the 70s of the 20th century, he has participated in the planning and demonstration of China's night vision technology, and has led teams to the United Kingdom, the Netherlands, the United States and other countries to inspect image intensifiers and night vision technology. Since the 80s of the 20th century, the method of tensor analysis has been proposed to study the electron motion in the coordinate system of the rotational motion curve, and a new theoretical system of focusing and imaging of the wide electron beam of the crankshaft has been established on a more general basisIn cooperation with Fang Erlun, a relatively complete image tube electron optical design software package was compiled. In the 90s of the 20th century, Zhou Liwei cooperated with Fang Erlun and Zhang Zhiquan to successfully research and develop the ODESI-V image tube electron optical system optimization design software package.
Zhou Shouhuan, born on April 3, 1937 in Chengdu, Sichuan, is an expert in laser and optoelectronics, an academician of the Chinese Academy of Engineering, a researcher at the 11th Research Institute of China Electronics Technology Group Corporation, and a professor and doctoral supervisor of Sichuan University.
After graduating from the Department of Physics of the University of Science and Technology of China in 1962, Zhou Shouhuan joined the 11th Research Institute of China Electronics Technology Group CorporationIn 1987, he was rated as a professor-level senior engineerFrom 1994 to 1996, he was a senior visiting scholar at the City University of New YorkIn 2003, he was elected as an academician of the Chinese Academy of Engineering.
Shouhuan Zhou is mainly engaged in the research of solid-state laser engineering and application, and has made important achievements in the research and application fields of all-solid-state laser, high-beam quality laser, high-brightness laser, nonlinear frequency conversion and so on. In the early 70s of the 20th century, he proposed the technical idea of diode-pumped solid-state laser (DPSSL), and was the first to carry out the research of DPSSL in China. The green output of DPSSL of all domestic components took the lead in breaking through 100 watts, breaking the foreign embargoHigh repetition frequency doubling DPSSL and Q-switch single longitudinal mode DPSSL have broken through the environmental barrier and made breakthroughs in engineering practicability. It is the first in China to use unstable cavity for ND:YAG lasers, and has developed unstable cavity, VRM cavity and VWRM cavity lasers, designed and developed into high-reliability, high-power, and high-beam quality laser products. In cooperation with domestic units, it took the lead in realizing the tunable laser output of 230-1390nm, and successfully developed runway visual range laser detectors, meteorological lidars, laser underwater detection test systems, etc. In 2013, the key technology of 10,000-watt high-brightness laser was broken through for the first time in China, and the average output power was p=13kw and the beam quality was 17. The continuous working time is greater than 100s. In 2005, a new concept of doped nanocrystalline laser was first proposed in the world, and the laser output was observed in 2012.
Zhou Zhongyi, born in Shanghai on August 6, 1935, is an information technology expert, an academician of the Chinese Academy of Engineering, and a researcher of a department of the General Staff of the Chinese People's Liberation Army.
Zhou Zhongyi was admitted to the ** Military Commission Technical Cadre School in July 1951, majoring in signal and information processingFrom August 1955 to June 1985, he served as a researcher of a certain department of the General Staff Department of the Chinese People's Liberation ArmyFrom July 1985 to June 1990, he served as the director of a department of the General Staff of the Chinese People's Liberation ArmyFrom June 1990 to 1994, he served as deputy director of a certain department of the General Staff Department of the Chinese People's Liberation ArmyIn 1994, he was elected as an academician of the Chinese Academy of EngineeringIn December 2015, he joined the Strategic Support Force of the Chinese People's Liberation Army.
Zhou Zhongyi is mainly engaged in the research of information technology and other aspects, creatively solves the technical problems in the key technical topics in the professional field he is engaged in, and has achieved a number of research results with international level and leading position in China.
Zhu Gaofeng, born in Shanghai on May 27, 1935, originally from Ningbo, Zhejiang, is an expert in communication technology and management, an academician of the Chinese Academy of Engineering, and the first executive vice president of the Chinese Academy of Engineering.
Zhu Gaofeng studied at the Department of Physics of Tsinghua University from 1951 to 1952In 1953, he was selected to study Xi at the Leningrad Telecommunications Engineering Institute of the former Soviet UnionHe graduated in 1958 with an engineer degree, and returned to China in the same year and was assigned to work at the Research Institute of Posts and Telecommunications of the Ministry of Posts and TelecommunicationsSince 1982, he has served as Vice Minister of the Ministry of Posts and Telecommunications and a director-level senior engineerIn 1994, he was elected as an academician of the Chinese Academy of EngineeringFrom 1994 to 2002, he served as Vice President of the Chinese Academy of EngineeringIn 2002, he served as the chairman of China Communications Standards Association.
Zhu Gaofeng has been engaged in telecommunications research for a long time. From the 60s to the 70s of the twentieth century, he participated in the overall design and development of a number of communication carrier transmission systems, and was responsible for the overall design of China's first set of medium coaxial cable 1800 channel carrier communication system, which was an important part of China's carrier communication system, and won the National Science Conference Award in 1978. In particular, the coaxial cable 4380 carrier communication system, which is responsible for the overall design, has a wide frequency and technical difficulty, and some technologies have reached the level of 10,000-way carrier systems outside China. Breaking the international blockade of communication technology against China and filling the gap in China, the project won the first prize of the National Science and Technology Progress Award in 1985. In the eighties of the twentieth century, he initiated and organized the construction of a national long-distance automatic network, put forward the overall idea of network operation reliability, and promoted the development of communication network theory. In the nineties of the twentieth century, the organization formulated China's long-distance network plan, which played a leading role in the construction of China's 22 optical cable trunk lines during the "Eighth Five-Year Plan" period.
Zhuang Songlin, male, Han nationality, born on August 14, 1940, from Liyang, Jiangsu Province, is the dean and doctoral supervisor of the School of Optoelectronic Information and Computer Engineering of the University of Shanghai for Science and Technology, a member of the Science and Technology Committee of China North Industries Group, a researcher of China North Optoelectronics Group, the chairman of Hua Taiji Optoelectronics Technology, a part-time professor of Shanghai Jiao Tong University, Fudan University and Zhejiang University, an academician of the Chinese Academy of Engineering, and an optical expert.
In 1962, Zhuang Songlin graduated from Fudan University in ShanghaiIn 1979, he went to the United States for visiting researchHe received his Ph.D. in Electrical Engineering, Pennsylvania State University, USA, in 1982From 1983 to 1988, he served as the director of Shanghai Institute of Optical InstrumentsIn 1984, he was rated as a national young and middle-aged expert with outstanding contributionsIn 1985 and 1987, he was rated as a model worker in ShanghaiFrom 1988 to 1992, he served as the director of Shanghai Institute of Laser TechnologyIn 1989, he was nominated for the first Shanghai Science and Technology Elite AwardIn 1990, he was awarded a special allowanceIn 1991, he was awarded the honorary certificate of outstanding and outstanding contributions to the returned personnelIn 1995, he was elected as an academician of the Chinese Academy of Engineering
Zhuang Songlin has been engaged in the research of applied optics, optical engineering and optoelectronics for a long time, and has designed more than 100 kinds of optical systems and instruments, and is the first researcher to carry out optical system CAD in China. He presided over the completion of the largest optical instrument design software system in China, and achieved original results in the nonlinear model of the total extreme value optimization method of statistical test, extreme tolerance, etc. He has carried out pioneering work in the field of psychophysical experimental research on optical images. He has made a comprehensive and systematic study of incoherent optical information processing and rainbow holographic technology, proposed a variety of optical methods in the study of phase recovery of complex objects, created a new direction of research in this field, and developed the CDSE (cadmium selenide) liquid crystal optical valve has reached the international advanced level, and has achieved outstanding research results in the research of gradient refractive index optical materials, grating diffraction vector mode theory, high-speed optical multi-channel modulus conversion and new passive period of optical capacitance and high-density optical storage technology. In 1980, he cooperated with others in the United States to propose a multi-channel white light information processing system, which made important contributions to modern white light information processing, among which the color image black and white coding technology was rated as one of the important achievements in 1980 by the American Institute of Physics.
List of high-quality authors