Tuition: 20000-38000 0-13000
Accommodation: About 4500-4900/year
Living Expense: About 1000/month
Tuition Fee(RMB):
25,000 CNY per year (Type A)
20,000CNY per year (Type B)
Accommodation: No
Living Expense: No
Note: Applicants need to pay about 2400 RMB deposit before they come to China. This scholarship is for the whole academic years, and an annual evaluation is needed.
a. Only applicable to overseas students who take English-taught degree programs.
b. The JSU Presidential Scholarship to graduate students will be awarded once a year after annual assessment of the student’s performance.
c. Transferring of major by bachelor students who availed JSU Presidential Scholarship in the first year, shall be approved only after the student compensates the scholarship amount back to the university.
1. Photocopy of valid passport.
With name, passport number & expiration date, and photo included.
2. Passport photo.
A recent passport-sized photo of the applicant.
3. Bachelor Degree diploma.
Graduation certificate in languages other than Chinese or English should be translated into Chinese or English and be certified by notarization.
4. Bachelor Degree Academic transcript.
Academic transcript in languages other than Chinese or English should be translated into Chinese or English and be certified by notarization.
5. Family financial statement.
Certificate of your family financial situation background.
6. 2 recommendation letters .
7. English language proficiency certificate (non-English speaking countries)
8. Research proposal
Your research background and interests(research proposal)
9. Common application form.
10. Scholarship application from
a. Only applicable to overseas students who take English-taught degree programs.
b. The JSU Presidential Scholarship to graduate students will be awarded once a year after annual assessment of the student’s performance.
Undergraduate Program Curriculum
Program
Electronic Engineering
Degree
Bachelor of Engineering (B.Eng.)
Normal Period of Study
4 years
Objectives
This Discipline is intended to equip the graduates with good qualities of modern sciences, humanities, sense of social responsibility and professional ethics, a solid grasp of basic theories and professional skills of the discipline, a strong sense of innovation and engineering practice ability, to enable the graduates to practice at enterprises, research institutes, and high education institutions in the field of Optical Engineering, optoelectronics, optical communications, computer and other related fields, to specialize in optical information detection, transmission, optical imaging, optical display and storage, image information processing and computer applications in areas such as product design and manufacturing, technology development and engineering design, science research, education and teaching, operation management, and etc., to meet the requirements of the rapid high-tech development of the information society, and to further grow into high-level multi-skill talents sophisticated in both research and application.
Requirements
Students majoring this discipline are required to focus on the basic theory and basic knowledge of Optical Engineering, to go through basic training in connection with the analysis and design of optical information systems, and to master basic skills to design, develop, integrate and apply the optical information systems.
Graduates are expected to acquire the following knowledge and abilities:
1.To have good qualities in humanities and social sciences, good sense of social responsibility and engineering professional ethics;
2.To be equipped with knowledge of mathematics and natural sciences, and ideas of economic and management sufficient for engineering work
3.To grasp the basic theoretical knowledge of foundation courses such as optics, optoelectronics, engineering graphics, electronics technology, computer technology, software design, principles and techniques of laser, optical information processing, optical fiber communications, image processing, and to understand the leading edge and development trend of optical information science and engineering.
4.To have complete and all round study experience in engineering, and ability to design and analyze engineering experiments, to master basic knowledge of optical information collection, sending, transmission, processing, storage and display, and to have skills in the analysis, research, development, design, manufacturing and other engineering application skills in connection with relevant systems and devices;
5.To master the basic innovative approach with the pursuit of innovation and awareness of sustainable development; to be equipped with basic skills in application of scientific theories and techniques along with comprehensive consideration and analysis of economic, environmental, legal, safety, health, ethics and other factors in the solving of engineering problems;
6.To grasp basic method in documentation study, data research, and the use of modern information technology to obtain relevant information;
7.To understand the laws and regulations in connection with the production, design, research and development in the profession and industry of optoelectronic engineering, and principles, policies, laws and regulations in terms of environmental protection, and to have a positive attitude to and correct understanding of the impact of the current status and development of engineering on the objective world and human society.
8.To have certain organization and management skills, presentation skills and social skills, as well as the ability of cooperation and team working;
9.To have the ability to adapt to development, and to recognize the necessity of lifelong learning and to maintain the ability to study.
10.To have international vision, and ability of cross-cultural communication, competition and cooperation.
Core coureses
Circuit, analog electronic circuit, digital logic circuit, signal and systems, the principle and application of microcomputer, physical optics, applied optics, photoelectric detection technology, optical measurement, laser technology and applications, fundamentals of optical fiber communication theory, principles of sensors
Components of the 4-year Curriculum
Category |
Credits |
1.Major Requirements |
90 credits |
2.School Requirements |
37 credits |
3.Gateway Education |
10 credits |