1927 (Republic of China 16), after Ye Peida was admitted to CoCo Lee Middle School, he loved literature because of the influence of progressive literature and art, and he devoted himself to writing after school on holidays, which was often seen in newspapers. In high school, I made up my mind to study engineering.
1933 (22 years of the Republic of China), after graduating from high school, he entered the physics department of private Datong University in Shanghai. 1934 was admitted to the Department of Electrical Engineering of National Beiyang Institute of Technology, and won the first place for three consecutive years.
In August of the 27th year of the Republic of China (1938), Ye Peida graduated from the National Northwest Institute of Technology (1938 was formed by the merger of Beiyang Institute of Technology (Tianjin University), Beiping University Institute of Technology, Northeastern University Institute of Technology (Northeastern University) and private Jiaozuo Institute of Technology (China University of Mining and Technology), and stayed there as an assistant in the Department of Electrical Engineering.
1940- 1949 worked as a public engineer, assistant engineer and engineer in China National Government Central Broadcasting Station, and served as a lecturer and associate professor in the Department of Electrical Engineering of Nanjing Jinling University. During this period, I studied at Columbia University Graduate School 1945 to 1946.
1940 (29 years of the Republic of China) In September, Ye Pei Dajing School introduced him to Chongqing National Government Central Radio International Radio Station as a public works officer. In the same year, she married Ms. Yuan Baoxin. Ms. Yuan graduated from the Department of Home Economics of Northwest Normal University. She manages her family well. She is a successful wife of Ye Pei Da.
1944 (thirty-three years of the Republic of China), Ye Pei was promoted to assistant engineer and concurrently served as an AC motor experiment in the Department of Electrical Engineering of Jinling University?
1945 (thirty-four years of the Republic of China), Ye Peida took the overseas examination of official fees in the American Lending Law, was admitted with the first place in telecommunications, and arrived in new york in early September of the same year? According to Qian, he worked as an intern at NBC Studio and Launch Station, then at CBS and studied at Columbia University?
1945- 1946 studied at the graduate school of Columbia University in the United States, and worked as an intern at NBC and Norte Electric Company in Canada.
1946 (thirty-five years of the Republic of China) was sent to the Northern Electric Company in montague for an internship, and returned to San Francisco for an internship in September of the same year. 1 1 Ye Pei returned to China and worked for Nanjing National Government Central Broadcasting Station. At the end of the year, he was promoted as an engineer and sent to work in Nanjing Jiangdongmen Computer Room. At the same time, he is an associate professor in the Department of Electrical Engineering of Jinling University.
1947 to 1949, former engineer of China Central Radio Station and associate professor of Nanjing Jinling University. He is responsible for designing, installing and testing the first 100 kW high-power broadcast transmitter in China.
At the beginning of 1948 (thirty-seven years of the Republic of China), Jiangdongmen machine room was dismantled and transported to Guangzhou, and Ye Peida arrived in Guangzhou with the ship.
1949 at the end of June, Ye Peida left Guangzhou and returned to Tianjin Beiyang University to teach in September of the same year. He is a professor of electrical engineering at Tianjin Beiyang University and an engineer at the Central Broadcasting Bureau.
1950, Ye Pei da published the article "Design, Installation and Testing of Duhet 100 kW Circuit" in Telecommunication Construction, which is the theoretical crystallization of his years of practical work. This article, together with the concept of neutralization RF amplifier published later, was listed as a compulsory supplementary textbook by many universities such as Tsinghua at that time. One of the pioneers of microwave communication and optical fiber communication
195 1 year, Zhang Guotao, then director of Tianjin Education Bureau, introduced Ye Pei to join China Democratic League?
From 65438 to 0952, he served as a professor and head of the Department of Telecommunications of Tianjin University, and was elected as the chairman of the school trade union and the representative of Nankai District of Tianjin.
1954, participated in the preparatory work of Beijing Institute of Posts and Telecommunications, and was one of the initiators of the preparatory work.
From 65438 to 0955, Ye Pei Da was transferred to Beijing Institute of Posts and Telecommunications with the Department of Telecommunications of Tianjin University, and served as a professor of wireless department of Beijing Institute of Posts and Telecommunications. He used to be president, vice president, provost and honorary president of Beijing University of Posts and Telecommunications. In the same year, Ye Peida presided over the development of microwave transceiver, which was successful.
In 1956, the research work of microwave communication in China was first carried out, including the transmission of H 10 mode in metal circular waveguide, analog/digital microwave relay system and so on.
1958 cooperated with China academy of sciences to study "millimeter wave circular waveguide H0 1 communication system" and achieved results, and published many papers, such as "Study on modulation mode of waveguide H0 1 communication", "Circular waveguide H0 1 long-distance transmission theory", "Microwave relay circular waveguide feeder" and "Coaxial".
1964, Ye Pei Da cooperated with Institute of Electronics, Chinese Academy of Sciences, and took the lead in developing atmospheric optical communication research in China, and successfully conducted atmospheric optical communication experiments in Beijing and Shanghai. The papers published in this issue mainly include Gyroscopic Theory and Microwave Theory and Technology Development.
1965 took the lead in the research of atmospheric optical communication in China and became a pioneer in the field of optical communication in China.
During the period of 1974, I participated in the research and development of the 960-channel microwave relay II machine of the Ministry of Posts and Telecommunications. Ye Pei Da overcame all kinds of difficulties and developed microwave waveguide phase corrector, microwave waveguide direct coupling filter and microwave demultiplexer for the first time in China, which made important contributions to improving the quality of 960-channel microwave relay type II machine. This scientific research achievement won the National Science Conference Award of 1978 (collective). In addition, he also designed the 120 digital microwave system. Based on the design and development of the system, the book Digital Microwave Communication System and Computer Aided Design was published. The publication of this book adapts to the development trend of digital microwave communication system and computer-aided system design, and has made contributions to the development of microwave communication in China.
1978, after Ye Peida resumed his research on optical communication, he promptly grasped the strategic worldwide frontier topic of "research on coherent optical fiber communication system". The organization has made great contributions in solving key problems and promoting the research work of national optical communication.
1979 In the summer, Beijing University of Posts and Telecommunications was entrusted by the State Science and Technology Commission to hold the first national optical communication technology study class, headed by Ye Pei Da. This class has inspired and promoted the development of national optical communication. In the early 1980s, Ye Pei Da won the 1983 Beijing Excellent Academic Achievement Award and the World Communication Outstanding Paper Award for his thesis published while instructing graduate students to study mode noise in multimode optical fiber transmission systems.
1980 was elected as an academician of China Academy of Sciences, and now he is a senior academician of China Academy of Sciences.
From 1983, he was the first convener of the electronic and communication discipline evaluation group of the State Council Academic Degrees Committee, and from 1984, he became the first doctoral supervisor in China.
After 1985, Ye Pei Da successively organized international academic conferences such as the China-Japan Conference on Optical Fiber Science and Electromagnetic Field Theory, the China-UK Conference on Optical Fiber Communication, the ITT Transmission Seminar, the International Telecommunication Traffic and Network Seminar, and the International Communication Technology/China-UK Second Symposium on Optical Fiber Communication/Solid-State and Semiconductor Lasers, and served as the chairman or co-chairman of the conferences. In June of the same year 1 1, he joined the China * * * Production Party.
1986 The key cooperative project "Development of coherent optical fiber communication systems and devices" won the Science and Technology Progress Award of the Ministry of Posts and Telecommunications, and this achievement was listed as 1988 national major scientific research achievement. In the same year, the "semiconductor laser packaging structure" developed by his doctoral students won the national patent. In addition, he also undertook two national key projects during the Seventh Five-Year Plan, such as optical phase-locked loop-homodyne coherent optical communication receiver and mode distribution noise, as well as national natural science foundation projects such as single-frequency semiconductor laser and ring resonator semiconductor laser.
1989 presided over the completion of a large-scale consultation report on "Reasonable Communication Structure", which was adopted by the general meeting of members of the Chinese Academy of Sciences and reported to the CPC Central Committee and the State Council, and was highly valued. Now a lot of content has been adopted.
From 1990 to 1992, he proposed and presided over the demonstration of the national "863" communication high-tech project, which was approved and has been implemented for more than five years.
1990 was hired as an academician of the Institute of Electromagnetic Science of Massachusetts Institute of Technology (MIT).
1993 was elected as the director of International Computer Communication Committee (IC (:C)). In the same year, he presided over the demonstration of the national key science and technology project "HDTV", which was approved and started by the State Council.
From 65438 to 0994, he presided over the research work of "Building China's National Information Infrastructure" by the Technical Department of Chinese Academy of Sciences, completed a large-scale consultation report and presented it to the CPC Central Committee and the State Council.
20111612. Ye Pei died in Beijing at the age of 96.