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Su DaMajor in Optoelectronic Information Science and EngineeringWell, the profession belongsSoochow UniversityManagement of the School of Optoelectronic Science and Engineering. The college has national key disciplines.
Cultivate construction sites (optical engineering), "material science engineering" national first-class disciplines, provincial first-level key disciplines (optical engineering).
It has 3 provincial and ministerial key laboratories (Key Laboratory of Modern Optical Technology of the Ministry of Education, Jiangsu Provincial Key Laboratory of Modern Optical Technology, Jiangsu Provincial Key Laboratory of Advanced Optical Manufacturing Technology), and 2 provincial and ministerial engineering research centers.
A brief introduction to the School of Optoelectronic Science and Engineering, Soochow University.
The School of Optoelectronic Science and Engineering of Soochow University is located in the century-old and beautiful Tiancizhuang Campus of Soochow University (the school headquarters, Gucheng District, Suzhou City, its predecessor was the Laser Research Laboratory of Soochow University, which was founded in 1979.
In January 2014, the School of Optoelectronic Information Science and Engineering of the Faculty of Physics and Optoelectronic Energy was established on the basis of the former Institute of Modern Optical Technology, the former Institute of Information Optics Engineering, and the former Department of Optoelectronic Technology of the former College of Physical Science and Technology. In May 2018, the school was established independently and renamed as the School of Optoelectronic Science and Engineering.
The above content refers to the introduction of Soochow University - School of Optoelectronic Science and Engineering.
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Optical Information Science and Technology, Soochow University
Training objectives: Cultivate students with solid basic knowledge of mathematics, physics, electronics and computers, systematically master the basic skills of optical information processing technology, modern electronic technology and computer application technology, have the technical research ability in the field of measurement and control related to sensing technology, automatic control technology and optoelectronic technology, and be able to engage in optical communication, optical information processing and related electronic information science, computer science and information technology, especially in the optical mechatronics industry engaged in scientific research, product design and development. Engineering and technical personnel in production technology or management.
Compulsory courses: General Physics, Optics, General Physics Experiments, Analog Electronic Technology, Optoelectronic Technology, Laser Principle, Engineering Optics, Holographic Technology, Optical Information Processing, Quantum Mechanics.
Employment direction: engaged in scientific research, product design and development, production technology management and other information technology fields such as electronic information technology, optoelectronic technology, optical communication, optical information processing, computer application technology, signal and image processing. More information about the application ratio, score line, bibliography and other information of Su Daguang Information Science and Technology [Phoenix Su University] You can learn about all aspects of this major, I hope it can help you!
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I amRiver Pond CollegeA senior graduate, this major is generally okay, just like our school students who studied this major have found good jobs. I also have a senior who I admire very much, and I admire him very much, and at the same time, I have refreshed my understanding of this major.
As far as I know, this major is a relatively highly specialized major, and the courses learned are relatively miscellaneous, including circuit principles, analog electronic technology, digital electronic technology, communication principles, signals and systems, etcDigital Signal Processing, Microcomputer Principles and Applications, MCU, Software Technology Basics, Physical Optics, Applied Optics, Information Optics, Optoelectronic Information Engineering, Information Processing Basics, Photoelectric Detection Technology, Modern Optical Measurement Technology, Sensor Principles, Laser TechnologyFiber optic communications, optoelectronics,Digital image processingBut my senior said that the undergraduate science is relatively shallow, and there is no in-depth research.
In terms of employment prospects,Some of the people I am familiar with went to BOE, and BOE can do it on their own, and some people goLearn and thinkAs physics teachers, some of them went to the Institute of Optics(Among them are state-owned enterprises, military-industrial enterprises.)
public institutions and the like), but most people (more than 50%) chose to go on to higher education (this part of the people includes those who are guaranteed to study for graduate school, those who are admitted to graduate school, and some even fight three times.)
In the end, I went to graduate school), after graduating from graduate school, none of them studied for a doctorate, they all chose to work, some still went to BOE, but the post was transferred to R&D, etc., of course, there were also undergraduates who went to R&D positions, and some went to state-owned enterprises, public institutions, military enterprises and the like.
It's really hard to learn this major, andPolarizationThe application of the things I learned is relatively narrow, and if I am employed, most of them will lean in the direction of image processing and the like, as well as optical design and the likeIn general, this major is suitable for scientific research, not for direct employment. It's okay after graduate school, overall, it's less than the above, and it's more than the bottom. However, there is not much competition in this industry, and it is relatively easy to go ashore for graduate school.
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Hello, I am glad to answer for you, optoelectronic information science and engineering is good employment, optoelectronic information science and engineering is mainly engaged in scientific research, related product design and manufacturing, scientific and technological development and application, operation management and other work in the fields of optoelectronic information engineering, optoelectronic engineering, optical communication, computer, etc. Optoelectronic information technology is a multidisciplinary comprehensive technology composed of optics, optoelectronics, microelectronics and other technologies, involving the radiation, transmission, detection of optical information, as well as the conversion, storage, processing and display of optoelectronic information. Optoelectronic information technology is widely used in all walks of life in the national banquet, the people's economy and national defense construction.
In recent years, with the rapid development of the optoelectronic information technology industry, the demand for practitioners and talents has increased year by year, so the demand for basic knowledge of optoelectronic information technology is also increasing. Optoelectronic information technology promotes the development of modern information technology with its extremely fast response speed, extremely wide bandwidth, extremely high information capacity and extremely high information efficiency and resolution, so that the share of the optoelectronic information industry in the market is increasing year by year. In technologically developed countries, the output value of industries related to optoelectronic information technology has accounted for more than half of the total output value of the national economy, and the number of employees is increasing year by year, and the competitiveness is becoming stronger and stronger.
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Very employable.
At present, the output value of optoelectronic information technology-related industries has accounted for more than half of the total output value of the national economy, and the number of employees is increasing year by year, and the competitiveness is getting stronger and stronger.
The employment requirements for Optoelectronic Information Science and Engineering are as follows:
1.Master the basic theories and basic knowledge of mathematics, physics, etc.;
2.Master the basic theories, basic knowledge and basic skills of engineering development, design and manufacturing in this major;
3.Understand the general principles and knowledge of similar majors;
4.Familiar with the national information industry policy and domestic and foreign laws and regulations related to intellectual property rights;
5.Understand the theoretical frontiers, application prospects and latest development trends of optoelectronic information science and engineering, as well as the development status of the information industry;
6.Master the basic methods of data inquiry, literature retrieval and the use of modern information technology to obtain relevant information; Have the ability to design experiments, create experimental conditions, summarize, sort out and analyze experimental results, write and participate in academic exchanges;
7.Master the design and manufacturing methods of optoelectronic instruments in the field of optoelectronic information, and have the basic ability to engage in scientific research, teaching and development in optoelectronic information engineering and related fields;
8.Have certain scientific research, scientific and technological development capabilities and organizational management capabilities. Strong computer application skills.
9. Preliminary mastery of a foreign Chinese language, able to read foreign books and periodicals of the major relatively smoothly, have the foundation of listening, speaking and writing, and meet the national level 4 examination standards.
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Summary. This major is relatively highly specialized, and the courses are relatively miscellaneous, including circuit principles, analog electronic technology, digital electronic technology, communication principles, signals and systems, digital signal processing, microcomputer principles and applications, single-chip microcomputer, software technology foundation, physical optics, applied optics, information optics, optoelectronic information engineering, information processing basics, photoelectric detection technology, modern optical measurement technology, sensor principle, laser technology, optical fiber communication, optoelectronics, digital image processing, etc. However, this science is relatively shallow and has not been studied in depth.
This question is up to me, it takes a little time to type, so please be patient.
This major is relatively highly specialized, and the courses are relatively miscellaneous, including circuit principles, analog electronic technology, digital electronic technology, communication principles, signals and systems, digital signal processing, microcomputer principles and applications, single-chip microcomputer, software technology foundation, physical optics, applied optics, information optics, optoelectronic information engineering, information processing basics, photoelectric detection technology, modern optical quantity blindness pre-detection technology, code clearing, sensor principle, laser technology, optical fiber communication, optoelectronics, Digital image processing is amazing, but the undergraduate science is relatively shallow, and no in-depth research has been conducted.
Hope it helps, and I wish you all the best
If you are satisfied with my service, I hope you can give a thumbs up and wish you a happy life and happiness.
What about water conservancy and hydropower projects, as far as employment prospects are concerned, wait a minute.
Graduates can be engaged in design, construction, management, marketing and teaching in water conservancy and plumber, design, scientific research institutions, enterprises and institutions, and colleges and universities.
Hope it helps, and I wish you all the best
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Summary. In terms of employment prospects, some of the people I am familiar with went to BOE, BOE can do what they do on their own, some people went to Xueersi to become a physics teacher, and some people went to the Institute of Optics (including state-owned enterprises, military enterprises, public institutions, etc.), but most people (more than 50%) chose to go on to higher education (these people include those who are guaranteed to study for graduate school, graduate school, and some even went to graduate school at the end of World War III), and none of them studied for a doctorate after graduating from graduate school, and they all chose to work. Some still went to BOE, but the post was transferred to R&D and the like, of course, there were also undergraduates who went to R&D positions, and some went to state-owned enterprises, public institutions, military enterprises and the like.
Your question has been received, it will take a little time to type, please wait a while, please don't end the consultation, you can also provide more effective information about Jian Kai, so that I can better answer for you.
As far as I know, this major is a relatively professional major, and the courses are relatively miscellaneous, including circuit principles, analog electronic technology, digital electronic technology, communication principles, signals and systems, digital signal processing and dust theory, microcomputer proto-methane dispensing and application, single-chip microcomputer, software technology foundation, physical optics, applied optics, information optics, optoelectronic information engineering, information processing basics, photoelectric detection technology, modern optical measurement technology, sensor principle, laser technology, optical fiber communication, optoelectronics, Digital image processing, etc., in terms of employment prospects, some people I am familiar with went to BOE, BOE can do what they do on their own, some people went to learn to think about being a physics teacher, some people went to the Institute of Optics (which includes state-owned enterprises, military enterprises, public institutions, etc.), but most people (more than 50%) chose to go on to higher education (this part of the people includes the research institute, the graduate school entrance examination, the stool and even the last graduate school of the three wars), after graduating from graduate school, there is no one who reads Dr. Fengque, They all chose jobs, and some of them went to BOE but they went to R&D and the like, of course, there were also undergraduates who went to R&D positions, and some went to state-owned enterprises, public institutions, military enterprises and the like.
Pretty good.
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I hope I can help you, optoelectronic information science and engineering is a discipline covering optics, optoelectronics, optoelectronic devices, optoelectronic systems, etc., mainly studying the interaction and application of light and electricity. The employment prospects of optoelectronic information science and engineering majors are good, with the following advantages:1
High-tech industry demand: With the rapid development of information technology and the wide promotion of its application, graduates majoring in optoelectronic information science and engineering have received extensive attention and demand in the high-tech industry. Optoelectronic information technology has a wide range of applications in the fields of communication, optoelectronic display, optoelectronic devices, photoelectric sensing, etc., and there is a large demand for talents in optoelectronic information science and engineering.
2.Rapid industrial development: Optoelectronic devices, optoelectronic systems and other industries involved in optoelectronic information science and engineering are showing a rapid development trend at home and abroad.
In China, the optoelectronic information industry has become a strategic emerging industry supported and developed by the state. 3.Interdisciplinary Applications:
The major of optoelectronic information science and engineering involves the interdisciplinary application of optics, electronics, materials and other disciplines, and has a strong comprehensive liquid dispensing ability. This allows optoelectronic information science and engineering graduates to find employment opportunities in a variety of fields, such as optoelectronic device manufacturing, optical communication technology, optoelectronic system design, etc. 4.
Scientific research and innovation opportunities: Graduates of optoelectronic information science and engineering can engage in scientific research and technological innovation in scientific research institutions, universities, research institutes, etc., participate in major scientific research projects at home and abroad, and promote the development of optoelectronic information technology. If you have more questions, you can ask Mr. Yang Hai.
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