1. Mathematics

(Two orientations Mathematics and Applied Mathematics, Information and Computing Science)

Objective: This program is established to cultivate inter-disciplinary talents with systematic mathematical training, solid mathematical foundation and professional knowledge to proficiently using mathematical knowledge and data analysis methods to conduct further study in Mathematics, Science and Engineering, Finance, Economic Management and other majors; cultivate specialized talents in Applied Mathematics with a broad vision and all-round development to engage in fields as management, insurance, research, teaching, etc. in the economic, financial, technological, and educational sectors.

Curriculum:

Mathematics courses: Mathematical Analysis, Advanced Algebra, Analytical Geometry, Differential Equations, Probability Theory, Numerical Analysis, Mathematical Statistics, Complex Variable Functions, Real Variable Functions and some professional elective courses, such as Mathematical Equations, Functional Analysis, Differential Geometry, Modern Algebra, Topology, Numerical Solutions of Differential Equations, Regression Analysis and Experimental Design, Mathematical Models, Mathematical Planning and Operations Research.

Computer courses: Discrete Mathematics, C / C ++ Programming, Data Structure, Database Technology and Application, Software Engineering, Java language, Network Technology, Multimedia Technology, etc.; practical courses such as Mathematical Experiment and Application Software, Mathematical Modeling Experiment.

Career: Graduates of this program can pursue further study as postgraduates in universities or research institutes at home and abroad; work in IT industry or engineering related fields; work in institutions such as banks, insurance companies, consulting companies, accounting firms; double-major international students work in mathematics or financial mathematics related industries.

2. Applied Physics

Objective: To meet the needs of modern innovation-led economic and social construction and the development of optoelectronic information technology, this program intends to cultivate interdisciplinary applied talents and research talents with humanistic quality, scientific literacy and social responsibility. The talents should have good mathematical foundation, solid theoretical basics of Physics, professional foundation and experimental skills of Applied Physics (featured Optoelectronic Technology). The talents should be equipped with good foreign language ability and computer application ability, as well as the sense of innovation and experimental development ability, independent knowledge acquisition ability, communication and organization management ability.

Curriculum:

Basic courses: General Physics, Optics, Theoretical Mechanics, Electrodynamics, Thermodynamics and Statistical Physics, Circuit and Electronic Technology, Digital Electronic Technology, Laser Principles, Solid State Physics, and Fundamentals for C Programming

Required specialized courses: Information Optics, Crystal Optics, Computer Principles and Interfaces, Communication Principles, Principles for Optical Fiber Communications, Optoelectronics, Computational Physics, and etc.

Optional specialized courses (2-3 courses): Sensor Principles and Applications, Nano Opticsand Technology, Principles and Applications of Single Chip Microcomputer, Data Communication Network, Optical Fiber Communication Network, Atomic Physics, Introduction to Modern Physics, Photoelectric Films and Devices, Physical Testing Technology, etc.

Practical training courses: General Physics Experiments, Modern Physics Experiments, Mechanical Engineering Training, Computer Principles and Interface Experiments, Electrical and Electronic Basic Training, Professional Physics Experiments, Optical Communication Technology Design, Fundamentals for Applied Physics Project Design, Innovative Practice and Graduation Design, and etc.

Career: Graduates of this program can start a career in the research and development of products or technologies in the fields of communications, computer science and technology, laser technology and engineering, optical or optoelectronic equipment, and etc., as well as the research and development work, computer software programming, science and technology information management in research institutes.

3. Statistics

Objective: This major is dedicated to cultivating high-quality compound talents with systematic mathematical training, solid basic knowledge of mathematics and statistics, statistical research ability, data analysis ability, mastering data mining technology, machine learning foundation and statistical software application. You can engage in data analysis, consulting and decision-making in the fields of finance, insurance, Internet, biology, medicine, health and other industries and government departments. You can also pursue postgraduate study in statistics orotherrelated majors orevenstudy abroad.

Curriculum:

Core courses: Mathematical Analysis, Advanced Algebra, Introduction to Statistics, Probability Theory, Mathematical Statistics, Regression Analysis, Applied Random Process, Multivariate Statistical Analysis, Time Series Analysis, Statistical Computing, Numerical Analysis, Real Variable Function, Functional Analysis, Ordinary Differential Equation, Mathematical Modelling, MySQL, Database Basis.

Specialized courses: Sample Survey, Design of Experimental, Reliability Statistics, Non-parametric Statistics, Statistical Theory, Cases of Statistical Application, Python Development Program, Big Data Foundation, Data Mining, Pattern Recognition, Graph Theory and Network, Machine Learning, Algorithm Analysis and Design, Software Engineering, Java Language.

Career: Graduates majoring in statistics have a wide range of employment opportunities and can engage in data analysis, consultation and decision-making in finance, insurance, Internet, biology, medicine, health and other industries or fields as well as government departments. Students can continue to study statistics and other related majors or study abroad.

4. Optoelectronic Information Science and Engineering

Objective: This program is facing for research and development needs in optoelectronic information technology field. The students should have solid theoretical basics and experimental skills in Optics, Electronics and Opto-electronics and have wide fundamental basis and good ability of practice. The major is dedicated to cultivating high-quality innovated talents with the ability of communication and organization management.

Curriculum:

Basic courses: Physical optics, Applied optics,Information Optics,Complex function and integral transformation, Principle of Laser, Electromagnetic field theory, Circuit analysis basis, Analog electronic technology, Digital electronic technology, Communication principle, Signal and system.

Specialized limited courses: Crystal Optics, Optical Fiber Communication Principles, Computer Principles and Interfaces, Optoelectronics, Photoelectric detection technology and application, Sensor Principle and Application, Optical Fiber Communication Network, Nano Optics and Technology, Microwave photonics, photoelectric imaging technology, Photoelectric Films and Devices.

Practical courses: Physics Experiment, Mechanical Engineering Training A, Computer Principle and Interface Experiment, Electrical and Electronic Basic Training, Photoelectric information comprehensive experiment, virtual instrument and programming language, information optics course design, Optical Communication Technology Course Design, Innovative Practice and Graduation Design, etc.

Career: Photoelectric information application field, intelligent optical display and imaging field, integrated optical lighting field, optical communication field, biomedical optics field, laser technology field, optical information processing, optical precision measurement field, photoelectric information remote sensing and remote sensing field, laser clean energy field, etc.