Computer Science and Technology Major (Undergraduate)
Cultivation Objective: This major cultivates specialized technical talents with good scientific literacy, systematic mastery of basic theory, basic knowledge and basic skills and methods of computer science and technology including computer hardware, software and application. The students trained in this specialty can effectively and systematically master the theoretical basis of the discipline, a relatively in-depth understanding of computer hardware and software systems, with a certain degree of analysis, synthesis and innovation ability, able to undertake computer hardware and software system design, development and implementation of the task, is suitable for the development and design of computer engineering, organization and management in educational units, enterprises, businesses, technical and administrative departments and other units.
Major courses: Introduction to Computer, Advanced Language Programming, Discrete Mathematics, Circuits and Modulo-electricity, Digital Circuits, Data Structures, Principles of Computer Composition, Principles of Databases, Computer Networks, Object-Oriented Programming, Assembly Language Programming, Principles of Operating Systems, Web Site Planning and Design, Software Engineering, Principles of Microcomputers, Principles of Compilation, and so on.
Graduates can be employed in computer hardware and software enterprises and electronics, automation and other related enterprises, institutions, government departments engaged in the application and development of computer software, computer network and application software development and maintenance, computer application system design and development.
Physics major (undergraduate)
Cultivation objectives: this major to cultivate moral, intellectual, physical and aesthetic all-round development of mastery of the basic theory of physics, basic knowledge and experimental skills, to obtain the initial training of scientific research, with good professional ethics and psychological and physical qualities, and to be able to engage in the relevant areas of the relevant areas of the relevant applied technology such as information, materials, microelectronics technology and computer software, can also be secondary schools to teach physics and development, computer network and application software development and maintenance, computer application system design and development. They are also capable of teaching physics in secondary schools as a complex applied talent, as well as high-level talents who can articulate with post-university education such as graduate education.
Major courses: mechanics, thermodynamics, electromagnetism, optics, modern physics, advanced mathematics, mathematical physics, theoretical mechanics, analog circuits, electrodynamics, thermodynamics and statistical physics, quantum mechanics, secondary school physics teaching materials and teaching methodology, digital circuits, solid state physics, microcomputer principles and applications, microcontroller principles and applications.
Graduates employment direction: can be engaged in the application of knowledge related to the various types of work, but also can be engaged in interdisciplinary areas of related work, related enterprises and institutions technical work, but also engaged in education and teaching work.
Electronic information engineering (undergraduate)
The training goal: this specialty cultivates the basic knowledge of electronic technology and information systems, can be engaged in various types of electronic equipment and information systems, research, design, manufacturing, application and development of higher engineering and technical personnel.
Major Courses: Advanced Mathematics, College Physics, Advanced Languages and Programming, Fundamentals of Circuit Analysis, Signals and Systems, Network Analysis, Low-Frequency Electronic Circuits, Pulse Digital Circuits, Digital Signal Processing, High-Frequency Electronic Circuits, Principles of Communication, Electronic Measurement, Electromagnetic Field Theory, Information Theory and Coding, and Sensory Technology.
Graduates employment direction: graduates of this program can be engaged in electronic technology, communications, microwave, antenna, television technology, instrumentation, information processing, and other electronic information systems, research, design, manufacturing, but also in the economy, the government administration and scientific research departments engaged in management work.
Automation Major (Undergraduate)
Cultivation Objective: This major is to cultivate students who are suitable for the needs of socialist modernization, have all-round development in morality, intellectuality and physical fitness, have a solid foundation and broad knowledge, can analyze and comprehensively deal with engineering and technological problems with a systematic point of view, have a grasp of the basic theories and technologies in the field of automation, have a good quality of science and engineering, and have a strong ability of adaptability and hands-on ability. Control system, power electronics, computer applications, automation instrumentation and equipment and other technical fields to engage in front-line application research, development and design, manufacturing and operation debugging of senior engineering and technical personnel.
Major courses: basic circuit analysis, analog electronics, digital electronics, power electronics, microcomputer principles and applications, microcontroller principles and applications, automatic control principles, modern control theory, sensor technology, computer control technology, PLC, motors and drag.
Graduates employment direction: can be in high-tech development companies, scientific research institutes (institutes), production enterprises, post and telecommunications, communications, electric power, transportation, finance, foreign trade, environmental protection, urban construction and other sectors and industries, can be engaged in high-tech, production areas of scientific and technological development and production management work, but also through the examination of graduate school in higher education and scientific research institutes to engage in teaching and scientific research work. Graduates can be engaged in electrical engineering related to power systems, intelligent measurement and control systems, computers and automatic control devices, electronic devices, design, operation and maintenance, information processing, test and analysis, scientific research, management and education work.
Mechanical Design, Manufacturing and Automation (Undergraduate)
Cultivation Objective: This major cultivates the basic line of the Party, to adapt to the needs of the development of the socialist market economy, moral, intellectual, physical and aesthetic all-round development, the basic theory of a solid, adaptable, with the combination of mechanical engineering and electronic technology, computer technology, with mechanical design, manufacturing knowledge and the application of ability in the field of mechanical design and manufacturing in the product design and manufacturing. Mechanical design and manufacturing in the field of product design and manufacturing, scientific and technological development, applied research, production management and its related technical work and business sales and other aspects of the work of senior engineering and technical personnel.
Major courses: advanced mathematics, mechanics, basic theory of mechanical design and manufacturing, basic mechanical design, engineering drawing, engineering mechanics, mechanical principles, mechanical design, electrical engineering and electronics, hydraulic transmission, microcomputer principles and applications, mechanical engineering materials, numerical control technology, control engineering fundamentals, testing technology, mechanical manufacturing equipment design, mechanical engineering materials, basic manufacturing technology.
Graduates employment direction: manufacturing enterprises in product design, process design positions, production management positions, product sales positions; can be engaged in research and development units in the software development, product innovation and design work; can also be engaged in customs, commodity inspection, foreign trade, science and technology departments in the quality testing, technical supervision, production management and other work and the theoretical teaching of this specialty.
Applied Electronics Technology (Specialty)
Cultivation Objective: This specialty is to cultivate a certain degree of modern electronic basic theory and professional practice skills, familiar with the working principle and performance of commonly used electronic products, with the installation of electronic instruments and equipment, debugging, inspection, operation, maintenance and other technologies, as well as a certain degree of design and development of electronic products, the ability of the senior applied Specialists.
Main courses: circuit analysis, analog electronics, digital electronics, high-frequency circuits, general knowledge of mechanical engineering, electronic measurements, sensor principles and applications, microcontroller principles and interface technology, principles of household electrical appliances and application of technology, electronic design automation, electronic production process basis. There are also a large number of practical training and design sessions.
Graduates employment direction: can be in the electronic technology enterprises engaged in product development, quality management and supervision, production process and other work; can also be engaged in large enterprises and institutions in various types of electronic equipment, electrical instrumentation and tools, operation, management and maintenance work; but also can be engaged in product promotion, market development and product after-sales service work.